ML18018B098
| ML18018B098 | |
| Person / Time | |
|---|---|
| Site: | Nine Mile Point  |
| Issue date: | 01/18/2018 |
| From: | Niagara Mohawk Power Corp |
| To: | Office of Nuclear Reactor Regulation |
| References | |
| Download: ML18018B098 (290) | |
Text
NINEMILEPOINTNUCLEARSTATION-UNIT1SEMI-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORTJULY-DECEMBER1993-NIAGARAMOHAWKPOWERCORPORATION J<vt Page1of3NINEMILEPOINTNUCLEARSTATION-UNIT1SEMI-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORTJULY-DECEMBER1993SUPPLEMENTAL INFORMATION
~Fi~lli:NineMilePointUnit¹1~Liennea:NiagaraMohawkPowerCorporation 1.TEHNIALPEIFIATIONLIMITA)FISSIONANDACTIVATION GASES1~Thedoseratelimitofnoblegasesfromthesitetoareasatandbeyondthesiteboundaryshallbelessthanorequalto500mrems/year tothetotalbodyandlessthanorequalto3000mrems/year totheskin,2.Theairdosedue'tonoblegasesreleasedingaseouseffluents fromtheNineMilePoint1Stationtoareasatandbeyondthesiteboundaryshallbelimitedduringanycalendarquartertolessthanorequalto5milliroentgen forgammaradiation andlessthanorequalto10mradsforbetaradiation, andduringanycalendaryeartolessthanorequalto10milliroentgen forgammaradiation andlessthanorequalto20mradsforbetaradiation.
B8LC)TRITIUM,IODINESANDPARTICULATES, HALFLIVES)8DAYS1,ThedoseratelimitofIodine-131, Iodine-133, Tritiumandallradionuclides inparticulate formwithhalf-lives greaterthaneightdays,releasedtotheenvironsaspartofthegaseouswastesfromthesite,shallbelessthanorequalto1500mrems/year toanyorgan.2.ThedosetoamemberofthepublicfromIodine-131, Iodine-133, Tritiumandallradionuclides inparticulate formwithhalflivesgreaterthaneightdaysaspartofgaseouseffluents releasedfromtheNineMilePoint1Stationtoareasatandbeyondthesiteboundaryshallbelimitedduringanycalendarquartertolessthanorequalto7.5mremstoanyorganand,duringanycalendaryeartolessthanorequalto15mremstoanyorgan.004443LL llI Page2of3D)LIQUIDEFFLUENTS 1~Theconcentration ofradioactive materialreleasedinliquideffluents tounrestricted areasshallbelimitedtotheconcentrations specified in10CFRPart20,AppendixB,TableII,Column2forradionuclides otherthandissolved orentrained noblegases.Fordissolved orentrained noblegas,theconcentration shallbelimitedto2E-04microcuries/ml totalactivity.
2.Thedoseordosecommitment toamemberofthepublicfromradioactive materials inliquideffluents releasedfromNineMilePointUnit1tounrestricted areasshallbelimitedduringanycalendarquartertolessthanorequalto1.5mremstothetotalbodyandtolessthanorequalto5mremstoanyorgan,andduringanycalendaryeartolessthanorequalto3mremstothetotalbodyandtolessthanorequalto10mremstoanyorgan.2.MEAREMENTANDAPPRXIMATINFTTALRADIATIVITYDescribed belowarethemethodsusedtomeasureorapproximate thetotalradioactivity andradionuclide composition ineffluents, A)FISSIONANDACTIVATION GASESNoblegaseffluentactivityisdetermined byon-linegammaspectroscopic monitoring (intrinsic germanium crystal)orgrossactivitymonitoring (calibrated againstgammaisotopicanalysisofa4.0LMarinelli grabsample)ofanisokinetic stacksamplestream.B)IODINESIodineeffluentactivityisdetermined bygammaspectroscopic analysis(atleastweekly)ofcharcoalcartridges sampledfromanisokinetic stacksamplestream.C)PARTICULATES Activityreleasedfrommainstackisdetermined bygammaspectroscopic analysis(atleastweekly)ofparticulate filterssampledfromanisokinetic samplestream.Foremergency condenser ventbatchreleases, effluentcuriequantities areestimated bysubtracting activityremaining intheshellsideoftheemergency condenser afterbatchreleasefromactivitydelivered totheshellfromMake-upsources.Actualisotopicconcentrations arefoundviagammaspectroscopy.
Batchreleaseactivities ofSr-89,Sr-90andFe-55areestimated byapplyingscalingfactorstoactivityconcentrations ofgammaemitters.
TheactivityofTritiumreleasedduringnormaloperation orduringbatchreleasesisconservatively estimated bymultiplying recentcondensate storagetankH-3activitybyassumedsteamingratesoutthevents.D)TRITIUMTritiumeffluentactivityisestimated byliquidscintillation orgasproportional countingofmonthlysamplestakenwithanairsparging/water trapapparatus.
004443LL w4ci.Ngt Page3of3E)LIQUIDEFFLUENTS Isotopicanalysisofarepresentative sampleofeachbatchandcomposite analysisofnon-gamma emitters.
F)SOLIDEFFLUENTS Isotopiccontentsofwasteshipments aredetermined bygammaspectroscopy, grossalphaandwatercontentanalysesofarepresentative sampleofeachbatch.Scalingfactors-established fromprimarycomposite sampleanalysesconducted off-siteareapplied,whereappropriate, tofindestimated concentration ofnon-gamma emitters.
Forlowactivitytrashshipments, curiecontentisestimated bydoseratemeasurement andapplication ofappropriate scalingfactors.004443LL U'It'i$4F ATTACHIVIENT 1SummaryDataPage1of2Unit1XUnit2UquidEffluents:
Reporting PeriodJul-December199310CFR20,AppendixB,TableII,Column2~NA~NAAverageEnergy(FissionandActivation gases-Mev):Qtr.3Qtr.4Ey~6.07E-02Ep~1.41E-01Ey~8.12E-02E~~1.72E-01Uquid:Therewarenoliquidreleasesduringthereporting period.Numberofbatchreleases0Totaltimeperiodforbatchreleases(hrs)NIAMaximumtimeperiodforabatchrelease(hrs):N/AAveragetimeperiodforabatchrelease(hrs):~NAMinimumtimeperiodforabatchrelease(hrs):~NATotalvolumeofwaterusedtodilutetholiquideffluentduringreleaseperiod(L)NIATotalvolumeofwateravailable todilutetholiquideffluentduringreporting period(L)2.63E+11UNIT1(ONI.YJGaseous(Emergency Condenser Vent):Therewerenoreleasesfromtheoperation oftheemergency condenser vent.Numberofbatchreleases0Totaltimeperiodforbatchreleases(hrs)~NAMaximumtimeperiodforabatchrelease(hrs):~NAAveragetimeperiodforabatchrelease(hrs)NIAMinimumtimeperiodforabatchrelease(hrs):N/AGaseous(PrimaryContainment Purge):NumberofbatchreleasesTotaltimeperiodforbatchreleases(hrs)0~NAMaximumtimeperiodforabatchrelease(hrs):~NAAveragetimeperiodforabatchrelease(hrs):~NAMinimumtimeperiodforabatchrelease(hrs):~NA004443LL Al~,1 ATTACHMENT 1SummaryDataPage20f2Unit1XUnit2bnormalReleases:
Therewerenoabnormalreleasesduringthereporting period.Uquids:Numberofreleases0Reporting PeriodJul-December1993B.Gaseous:Totalactivityreleased~NACiNumberofreleases0Totalectivityreleased~NACi004443LL 4'IP ATfACHMENT 21Unit1XUnit2Reporting PeriodJul-December1993GASEOUSEFFLUENTS
-SUMMATION OFALLRELEASESELEVATEDANDGROUNDLEVELA.Fissionr/EActivation Gases1.Totalrelease2.AveragereleaserateCi/ICI/sec3'EST.TOTALQUARTERQUARTER~ERROR3.63E+012.91E+005.00E+014.57E+003.66E-01B.Iodiness1.Totaliodine-131 2.AveragereleaserateforperiodCi/ICI/sec~Q~0~0~03.00E+01C.Perticuletess 1~Particulates withhalf-lives
)8days2.Averagereleaserateforperiod3.Grossalpharadioactivity D.Tritiums1.Totalrelease2.AveragereleaserateforperiodE.PercentofTechSecLimitsFissionandActivation GasesPercentofQuarterly GemmaAirDoseUmit(5mrem)PercentofQuarterly BetaAirDoseLimit(10mrem)PercentofAnnualGammaAirDoseLimittoDate(10mrem)PercentofAnnualBetaAirDoseUmittoDate(20mrem)PercentofWholeBodyDoseRateLimit(500mrem/yr)PercentofSkinDoseRateLimit(3000mrem/yr)TritiumlodinesendParticulates withhalf-lives resterthan8dasPercentofQuarterly DoseLimit(7.5mrem)PercentofAnnualDoseLimit(15mrem)PercentofOrganDoseRateLimit(1500mrem/yr)Ci/rCI/secCiCi/iCI/sec7.19E+001.74E+015.00E+018.57E-012.21E+002.98E-024.16E-033.01E-022.97E-037.31E-027.52E-021.22E-011.23E-017.09E-041.05E-042.84E-044.11E-051.20E-027.63E-029.92E-019.98E-012.26E-041.53E-036.39E-054.25E-043.00E+017.62E-065.41E-055.42E-053.80E-052.50E+01Anindependent technical evaluation oftheoff-sitevendoranalysesperformed byNiagaraMohawkPowerCorporation hasindicated apotential foradiscrepancy inthedataresults.Theresidentinspectors atNineMilePointhavebeeninformedandcorrective actionsinitiated.
FutureSemi-Annual Radioactive EffluentReleaseReportswillreflectanychangesasaresultofthistechnical evaluation.
Concentrations lessthanthelowerlimitofdetection of1.00E-04/rCI/ml fornoblegases,1.00E-11/JCI/mlforparticulates, 1.00E-12pCI/mlforlodines,and1.00E-06/ICI/ml forTritiumasrequiredbyTechnical Specifications, afeindicated withadoubleasterisk.
Tritium,Iron-55,andStrontium resultswerenotreceivedfromtheoff-sitevendoratthetimeofthisreport.Thesenumbersincludeestimates, andactualnumberswillbeprovidedinthenextSemi-Annual Report.004443LL
~~~f8P<<IrL ATl'ACHMENT 31Unit1XUnit2Reporting PeriodJul-December1993GASEOUSEFFLUENTS
-ELEVATEDRELEASECONTINUOUS MODENuciidesReleased3"QUARTER4*QUARTERossianGss*s~Argon-41Krypton-85 Krypton-85m Krypton-87 Krypton-88 Xenon-127 Xenon-133 Xenon-133m Xenon-135 Xenon-135m Xenon-137 Xenon-138 Iodine'odine-131 iodine-133 Iodine-135 3.particulatoss sStrontium-89 Strontium-90 Cesium-134 Cesium-137 Cobalt-60 Cobalt-58 Manganese-54 Barium-Lanthanum-140 Antimony-125 Niobium-95 Cerium-141 Cerium-144 Iron-59Cesium-136 Chromium-51 Zinc-65Iron-55Molybdenum-99 CiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCi~0~t1.70E+00~0~0~03.46E+01~0~0~0~0~01.37E-04~04.20E-05OO~0~02.19E-05~t~0~0~00~~0~0~0~t~0~0~0~0~0~09.16E-01~0~0~01.99E+00~t~0~0~0~0~00~~02.55E-043.05E-05~0~0~0OO~0~J~0~0~00~~0~0~I~01.39E-04~0TritiumCi1.58E+001.28E+01Anindependent technical evaluation oftheoff.sitevendoranalysesperformed byNiagaraMohawkPowerCorporation hasIndicated apotential foradiscrepancy inthedataresults.Theresidentinspectors atNineMilePointhavebeeninformedandcorrective actionsinitiated.
FutureSemi-Annual Radioactive EffluentReleaseReportswillreflectanychangesasaresultofthistechnical evaluation.
Concentrations lessthanthelowerlimitofdetection of1.00E-04/rCI/ml fornoblegases,1.00E-11/rCI/mlforparticulates, 1.00E-12/rCI/ml forlodines,and1.00E-06yCI/mlforTritiumasrequiredbyTechnical Specifications areindicated withadoubleasterisk.
Tritium,Iron-55,andStrontium resultswerenotreceivedfromtheoff-sitevendoratthotimeofthisreport.Thosonumbersincludeestimates, andactualnumberswillboincludedinthenextSemi-Annual Report.4Nobatchmodereleaseoccurredduringthereporting period.004443LL
'I~.*W~lC'1:~I ATTACHMENT 41Unit'IXUnit2Reporting PeriodJul-December1993GASEOUSEFFLUENTS
-GROUNDLEVELRELEASESTherewerenoreleasesviatheemergency condenser ventoperation.
OnlyleakagefromtheventsresultsinanassumedH-3releasebasedontheconcentration lnthecondensate storagetanks.CONTINUOUS MODEBATCHMODENuciidesReleased3'UARTER4'+QUARTER3"~QUARTE48sQUARTER1.FissionGases2Argon-41Krypton-85 Krypton-85m Krypton-87 Krypton-88 Xenon-133 Xenon-133m Xenon-135 Xenon-135m Xenon-137 Xenon-138 Xenon-127 2.Iodines2Iodine-131 Iodine-133 Iodine-135 3.~siaulstess Strontium-89 Strontium-90 Cesium-134 Cesium-137 Cobalt-60 Cobalt-59 Manganese-54 Barium-Lanthanum-140 Antimony-125 Niobium-95 Cerium-141 Cerium-144 Iron-59Cesium-136 Chromium-51 Zinc-65Iron-55Molybedenum-99 CiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCi0~~0~0~0~0~0~0~0OOtO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~8~0~0~0~0~0~0~0~0~8~0~0~0~0~0~08~~0~0~0~00~~0~0~0~0~0~0~0~08~~0~0~8~0~0~0~0~0~0~0NoReleaseeNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleaseeNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoRel88888NoReleasesNoReleasesNoReleasesNoReleasesNoReleaseeNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoR8leasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleases4.TritiumCi5.61E+004.58E+00NoReleasesNoReleasesAnindependent technical evaluation oftheoff-sitevendoranalysesperformed byNiagaraMohawkPowerCorporation hasindicated apotential foradiscrepancy inthedataresults.Theresidentinspectors atNineMilePointhavebeeninformedandcorrective actionsinitiated.
FutureSemi-Annual Radioactive EffluentReleaseReportswillreflectanychangesasaresultofthistechnical evaluation.
Concentrations lessthanthalowerlimitofdetection of1.00E-04pCI/mlfornoblegases,1.00E-11/3CI/mlforparticulates, 1.00E-12/rCI/mlforlodines,and1.00E-OS/iCI/mlforTritiumasrequiredbyTechnical Specifications areIndicated withadoubleasterisk.
004443LL t,,le ATTACHMENT 5Page1Of2Unit1XUnit2Reporting PeriodJul-December1993UQUIDEFFLUENTS
-SUMMATION OFALLRELEASES3M4>>EST.TOTALQUARTERQUARTER~ERRORA.Fission&Activation Products1.Totalrelease(notincluding Tritium,gases,alpha)2.Averagedilutedconcentration duringreporting periodB.Tritium1.Totalrelease2.Averagedilutedconcentration duringreporting periodCi/ICI/mlCi/ICI/mlNoReleasesNoReleasesNoReleaseeNoReleaseeNoReleasesNoReleasesNoReleasesNoReleases5.00E+015.00E+01C.Dissolved andEntrained Gases1.Totalrelease2.Averagedilutedconcentration duringreporting periodCipCI/mlNoReleasesNoReleasesNoReleasesNoReleases5.00E+01D.GrossAlhaRadioactivit 1.TotalreleaseCiNoReleasesNoReleases5.00E+01E.Volumes1.Priortodilution2.Volumeofdilutionwaterusedduringreleaseperiod3.Volumeofdilutionwateravailable duringreporting periodLitersLitersUtersNoReleasesNoReleases1.28E+11NoReleasesNoReleases1.35E+115.00E+015.00E+015.00E+01F.PercentofTechnical Secification LimitsPercentofQuarterly WholeBodyDoseUmit(1.5mrem)PercentofQuarterly OrganDoseLimit(5mrem)PercentofAnnualWholeBodyDoseLimittoDate(3mrem)PercentofAnnualOrganDoseUmittoDate(10mrem)Percentof10CFR20Concentration UmitPercentofDissolved orEntrained NobleGasLimit(1.00E-5/ICI/ml)
%NoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleaseeNoReleasesNoReleasesNoReleaseeNoReleasesNoReleasee004443LL
.1'k AT1ACHIVIENT 5Page20f2Unit1XUnit2UQUIDEFFLUENTS RELEASEDReporting PeriodJul-December1993BATCHMODENuclidesReleasedStrontium-89 Strontium-90 Cesium-134 Cesium-137 Iodine-131 CiCiCiCiCi3"QUARTERNoReleasesNoReleasesNoReleasesNoReleasesNoReleases4oQUARTERNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesCobalt-58 Cobalt-60 Iron-59Zinc-65Manganese-54 Chromium-51 CiCiCiCiCiCiNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesZirconium-Niobium-95 MolyMenum-99 Technetium-99m Barium-Lanthanum-140 Cerium-141 CiCiCiCiCiNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleaseeNoReleasesNoReleasesNoReleasesTungsten-187 Arsenic-76 Iodine-133 Iron-55Neptunium-239 Praseodymium-144 Iodine-135 CiCiCiCiCiCiCiNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesNoReleasesDissolved orEntrained GasesTritiumClCiNoReleasesNoReleasesNoReleasesNoReleases004443LL a~4IIi ATTACHMENT 6Page1of6Unit1XUnit2Reporting PeriodJul-December1993SOLIDWASTEANDIRRADIATED FUELSHIPMENTS A.1TYPEVolume(ms)~Activit(Ci)ClassClass1.SpentResin5.83E+00008.08E+0000FilterSludge5.50E+00001.27E+0100Concentrated WasteEvaporator BottomsTotal01.13E+01000001.88E+0100002.DryCompressible Waste,DryNon-Compressible Waste(Contaminated Equipment) 0000003.Irradiated Components Therewerenoirrldeted components shippedforburialduringthereporting period.Anindependent technical evaluation oftheoff-sitevendoranalysesperformed byNiagaraMohawkPowerCorporation hasindicated apotential foradiscrepancy inthedataresults.Theresidentinspectors atNineMilePointhavebeeninformedandcorrective actionsinitiated.
FutureSemi-Annual Radioactive EffluentReleaseReportswillreflectanychangesasaresultofthistechnical evaluation.
Theestimated totalerroris5.00E+01%.
004443LL P~4" ATTACHMENT 6Page20f6Unit1XUnit2Reporting PeriodJul-December1993SOLIDWASTEANDIRRADIATED FUELSHIPMENTS A.lTYPEContainer
~PaakaaSolidification
~AaatSpentResinFilterSludgeConcentrated Waste2.DryCompressible Waste,DryNon-Compressible Waste(Contaminated Equipment) 3.Irradiated Components HICHICTYPEATYPEA~NA~NANONECEMENT~NA004443LL
'4<W,WI~II'l~+'S.W ATTACHMENT 6Page3of6Unit1XUnit2Reporting PeriodJul-December1993SOUDWASTEANDIRRADIATED FUELSHIPMENTS A.2.ESTIMATE OFMAJORNUCLIDECOMPOSITION (BYTYPEOFWASTE)a.SpentResins,FilterSludpes,Concentrated Waste:NuclidePercent(1)(2)(3)(4)(5)(6)Co-60Cs-137Fe-55Mn-54Cs-134Other3.80E+013.29E+011.74E+016.98E+003.10E+001.56E+00b.DryCompressible'Waste, DryNon-Compressible Waste(Contaminated Equipment):
Therewerenoshipments.
Nuclide~Percenc.Irradiated Components:
Therewerenoshipments.
Nuclide~percend.Other:Therewerenoshipments.
Nuclide~Percen004443LL
~+>~~
ATTACHMENT 6Page4of6Unit1XUnit2A.3.SOLIDWASTEDISPOSITION Reporting PeriodJuI-December199SOLIDWASTEANDIRRADIATED FUELSHIPMENTS NumberofShimentsModeofransoationDestination TruckBmwllSCB.IRRADIATED FUELSHIPMENTS (DISPOSITION)
Therewarenoshipments.
NumberofShimentsModeofTransortationDestination 0NIA~NA004443LL 4I'I\+J4$E"t'=I'54*7H\Q4 ATTACHMENT 61Page5Of6Unit1XUnit2Reporting PeriodJul-December1993SOUDWASTEANDIRRADIATED FUELSHIPMENTS C.-SOLIDWASTESHIPPEDOFF-SITETOVENDORSFORPROCESSING ANDSUBSEQUENT BURIALBelowisasummaryofDryActiveWastethatwasshippedoff-siteforprocessing andburialbyvendorfacilities (i.e.,ALARON,QUADREX,and/orSCIENTIFIC ECOLOGYGROUP)duringJul-December1993.Thesetotalswerereportedseparately from"10CFR61SolidWasteShippedforBurial"since(a)wasteclassification andburialwasperformed bythevendors,and(b)Technical Specification B.9.1requiresreporting of"information foreachclassofsolidwaste(as~definedby10CFR61)shippedoff-siteduringthereporting period".Theinformation providedinthissection,,therefore, isinadditiontothatrequiredbytheTechnical Specifications.
Thefollowing datarepresents theactualshipments madefromtheoff-sitevendorsofournon-compacted commingled trashthatwasprocessed priortoburial.C.1.TYPEOFWASTE-noncompacted commingled trashandcontaminated fuelpoolequipment shippedtoOakRidge,TNforprocessing priortoburialatBarnwell, SCBurialVolume~mActivity~CIEst.Total~Brror1.77E+015.32E-015.00+01C.2.ESTIMATEOFMAJORNUCLIDECOMPOSITION Nuclide~Percen(1)Co-60(2)Cs-137(3)Mn-54(4)Co-58(5)Fe-55(6)Fe-59(7)OtherB.17E+012.09E+018.09E+004.20E+001.83E+001.58E+001.65E+00C.3.SOLIDWASTEDISPOSITIONS NumberofShimonteModeofTransortatioDestination TruckBroweBSBAnindependent technical evaluation oftheoff-sitevendoranalysesperformed byNiagaraMohawkPowerCorporation hasindicated apotential foradiscrepancy inthedataresults.Therosidentinspectors atNineMiloPointhavebooninformedandcorrective actionsinitiated.
FutureSemi-Annual Redioactivo EffluentReleaseReportswillreflectanychangesasaresultofthistechnical evaluation.
Thenumberofshipments reportedherorepresents thototalnumberthatwasshippedfromtheoff-sitevendorforburial..Thisdoesnotrepresent th'enumberofshipments NiagaraMohawksenttobeprocessed.
004443LL iIr~W-'%P ATTACHIVIENT 6Page6of6Unit1XUnit2Reporting PeriodJul-December1993SOLIDWASTEANDIRRADIATED FUELSHIPMENTS D.SEWAGESLUDGESHIPPEDTOATREATMENT FACILITYCENTERFORPROCESSING ANDBURIALTherewerenoshipments ofsewagesludgewithdetectable quantities ofplant-related nuclldesfromNMPtothetreatment facilitYduringthereporting period.0004443LL 1~f(
ATTACHMENT 7Unit1XUnit2Reporting PeriodJul-December1993SUMMARYOFCHANGESTOTHEOFFWITEDOSECALCULATION MANUALTherewasonerevisiontotheUnit1ODCMduringthereporting period.Revision13isattachedalongwithasummaryofchangespresented toandapprovedbytheStationOperations ReviewCommittee InDecember1993.ThesummaryalsoincludesaJustlflciation foreachchange.004443LL 1Ill(hg ummarfni19Mhan~Di~m~n:~Tile:Unit1OffsiteDoseCalculation ManualRevision13totheOffsiteDoseCalculation Manualk~kRevision13totheUnit1ODCMwascompleted tocomplywithamilklocationadditiontotheenvironmental program.TheUnit1ODCMcontainsthemethodology andparameters todetermine gaseousandliquidsetpoints foreffluentstreams.Inaddition, theUnit1ODCMcontainsdoseanddoserateequations andparameters fordetermining compliance with10CFR20,10CFR50and40CFR190, inaccordance withtherequirements oftheUnit1Technical Specifications.
Description Change/:~K.~Piintn:
I)~Pa~f-Table5.1isbeingupdatedtoreflectanadditionofamilklocationtotheenvironmental program(memofromB.ZacharektoB.Thomas,datedAugust20,1993).2)~Pa~-Maplocation¹73fortheadditional milklocationisbeingaddedtoFigure5.1-2.TheUnit1ODCM.ThnilRviw:ATechnical Reviewwascompleted byB.ZacharekandH.Flanagan, Environmental Group.004475LL FI~+'CkhtI"Jl>>
ATTACHMENT 8Page1Of3Unit1XUnit2Reporting PeriodJul-December1993SUMMARYOFCHANGESTOTHEPROCESSCONTROLPROGRAMTheUnit1PCPRevision01wasimplemented inDecember1993.Cop)esofRevisions 00and01areattached.
Thefollowing changeswereapprovedbytheStationOperations ReviewCommittee ISORC)inNovember1993anddonotaffectorImpactthesafetyofradwasteoperations.
Thesechangesweredonetoimproveand/orreflectcurrentradwasteoperations.
/Old':Page pg:;i)IteW:Pigs',Itr!::;::,:.',:,:::::c.;-','Section p,:;:,,:,>>..,':,:.:';,:
TableofContentsDeletedreference tocommitments asasection.;;:;::,':,,i;::,Reason,'for.';.Chs'n'gag,',:,g i::Nocommitments.
1.0~Addedreference toD.O.T.regulations andguidelines.
~Deletedreference towetwaste.Clarification.
2.1.2Removedreference tospecificTechSpecssection8.5.2.11, andstate,"Inaccordance withtheapplicable TechSpec."Administrative change.3.1Removedallreference andspecificprocedural requirements fortypesofwaste(wetradioactive waste,dewatered spentbeadresins,activated carbonanddewatered filtersludge)andreplacedwithgeneralwasteprocessing procedural requirements foranytypeofradioactive wasteincluding thecapability tousevendorequipment andvendorprocedures.
Deletesspecificprocedures andallowsprocessing usingapprovedvendorequipment andprocedures including thecapability ofdehydrating liquidwasteasamethodofprocessing wastetomeetshippingandburialrequirements.
3.2.4Deletedreference toCNSIprocedures.
Deletedreference tospecificprocedures N1-LWPP-4, "WasteTransfertoaShippingCask,andN1-WHP-4, "CaskLoading"procedure.
Allowsuseofmorethenonevendor.Administrative totakespecificprocedure numbersoutofthomanualandbroadenwithamoregeneriostatement.
3.3.2Changedtherequirement that,"TheManagerofChemistry shallensurethechemicalandradionuclide contentofeachsampleisdetermined inaccordance withN1-CSP-14V,
'Collection andAnalysisofWasteSamples'"
to"ThoManagerofChemistry shallensurethechemicalandradionucllde contentofwasteisdetermined inaccordance withtheapplicable chemistry procedures."
Administrative totakespecificprocedure numbersoutofthemanualandbroadenwithamorsgeneriostatement.
004443LL JIt~l<AhO'I4+*PP/~alf~Wgv'xgoalf ATTACHMENT 8Page'2of3gOldPage>¹j/New~:P>agi',:¹j~
.';.,".;.:;i.
- i::';,'g'~i:,~l Ch'i'ng'e':.>'rg;"':>,';.',::.r'j'i>gg>.:':
,'!Bijou>.;':i';iIH eil'e'ori'for':.",C'h'in'gal::;!',;:::'.:::::i"':,.'.'.
33.3.33.4.1.a3.4.l.cDeletedthereference to"applicable S-RPIP's" andstate"applicable radiation protection procedures."
Deletedreference tothespecificTechSpecsection,6.9.1,RoutineReports.Deletedsection.Administrative totakespecificprocedure numbersoutofthemanualandbroadenwithamoregenericstatement.
Administrative.
Addressed in3.4.1.b.3.4.1.dDeletedreference tothereference GAP-INV-O2, "ControlofMaterialStorageAreas."Administrative totakespecificprocedure numbersoutofthemanualandbroadenwithamoregenericstatement.
33.4.2.aDeletedreference tospecifioTechnical Specification section.Administrative.
3.4.2.bThereisatypingerrorthatwasinadvertently approved; thiswillbecorrected innextrovisionofPCP.Clerical.
3.4.3Addedthestatement thatpersonnel areeffectively trainedinaccordance withthe"applicable trainingprocedures"
~..Clarification toencompass allprocedures.
3.4.3.aChangedstatement ofRadwasteOperatorinidalqualification requirement fromsatisfactory completion oftheRadwasteOperations Unit1PlantTrainingProgramtostatesatisfactory completion oftheRadwasteOperations Unit1InitialTrainingProgram".
Clarification.
3.4.3.a.1-4
~Switchedandrenumbered 3.4.3.a.1 with3.4.3.a.2 andrewrote3.4.3.a.2 todeletethereference toclassroom instruction andtospecificintentofon-the-job trainingobjectives.
Addedthestatement "inaccordance withapplicablo trainingprocedures."
Clarification totakespecifictrainingoutofthemanualandbroadenwithamoregenericstatement toensurecompliance withallprocedure requirements.
3.4.3.bandc~DeletedsectionsandIncorporated 3.4.3.b.1 and3.4.3.b.2 intosections3.4.3.a.3 and3.4.3.a.4 respectively.
Continued trainingonanannualbasisischangedtoacyclicalbasisanddeletedreference torequalification training.
Clarification.
Inaddition, remedialtrainingwillnowbeasdirectedbyNTP-TQS-503 insteadofbytheGeneralSupervisor Radwaste.
Clarification.
004443LL g~
ATTACHIVIENT 8Page3of3@::::<gy:%
'~wgxw:!::',:New".,:P'age,¹',";:.:
3.4.4Deletedreference tospecificqualityassurance procedures andreportsandstatedthat,"Training recordsandwastemanagement recordsaremaintained inaccordance withtheapplicable qualityassurance procedures."
Clarification totakespecificprocedures outofthemanualandbroadenwithamoregenericstatement toensurecompliance withallprocedural requirements.
4.1-4.3DeletedspecIFicdefinitions andstated,"Theapplicable Radwastepackaging, processing andtransportation definitions willbeusedinaccordance with49CFR171.8 and49CFR173A03.
Deletedspecificdefinitions andincludedreferences to49CFR171.8 and49CFR173.403.
5.1.1UstedtheLCOandsurveillance requirements separately asTechSpecsections3.6.16.cand4.6.16.c, respectively.
Clarification.
65.3Deletedreference toAP-3.3,"Radiation Protection Program,"
AP-3.3.2, "Radiation WorkPermit,"AP-3.3.3, "Radiation WorkerConduct",
andaddedGAP-RAP<1, "Radiation Protection Program,"
andGAP-RAP<2, "Radiation WorkPermit."Updatedtoincorporate currentreferences.
8,97,8Attachment 1Deletedreference toN1-WHP-05, "On-SitsDrumHandling."
Updatedtoreflectcurrentreferences.
UpdatedthetitletoN1-LWPP-14, "SumpandTankCleaning" procedure.
Deletedreference toS-RPIP-7.5, "VanendBathedShipments."
Addedchemistry procedure, "N1-CTP-V402, "Radioactive SolidWasteComposites.
Updatedthequalityassurance procedures withrevisedtitleandnumbers.Deletedtrainingprocedure NTP-13,"Training andContinued TrainingofRadwasteOperators."
004443LL ta0 ATTACHMENT 9Unit1XUnit2Reporting PeriodJul-December1993SUMMARYOFINOPERABLE MONITORSMonitorDatesofInoperability CausesndCorrective ActionsTherewerenoinoperable monitorsforaperiodgreaterthan30daysduringthereporting period.004443LL 4*44.
ATTACHMENT 10~Page1of3SEMI-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORT(1993)'NINEIVIILEPOINTNUCLEARSTATIONUNIT1DOSESTOIVIEMBERS OFTHEPUBLICDUETOTHEIRACTIVITIES INSIDETHESITEBOUNDARYJANUARY-DECEIVIBER 1993Dosestomembersofthepublic(asdefinedbytheTechnical Specifications) fromtheoperation oftheNMP1facilityasaresultofactivityinsidethesiteboundaryarecontrolled byactivities attheEnergyCenter.Thisfacilityisopentothepublicandofferseducational information, summerpicnicking activities andfishing.Anypossibledosesreceivedbyamemberofthepublicbyutilizing theprivateroadthattransverses theeastandwestsiteboundaries arenotconsidered heresinceittakesamatterofminutestotravelthedistance.
TheactivityattheEnergyCenterthatisusedforthedoseanalysisisfishingbecauseitisthemosttimeconsuming.
Althoughthereisnospecificsurveyinformation available, manyofthesameindividuals havebeenobservedtoreturnagainandagainbecauseoftheaccesstosalmonidandlaketroutpopulations.
Dosepathwaysconsidered forthisactivityincludedirectradiation, inhalation andexternalground(shoreline sedimentorsoil)doses.Otherpathways, suchasingestion
- pathways, arenotconsidered becausetheyareeithernotapplicable, insignificant, orareconsidered aspartoftheevaluation ofthetotaldosetoamemberofthepubliclocatedoff-site.
Inaddition, onlyreleasesfromtheNMP1stackwereevaluated fortheinhalation pathway.Theemergency condensers werenotoperatedduring1993.Thedirectradiation pathwayisevaluated inaccordance withthemethodology foundintheOff-siteDoseCalculation Manual(ODCM).Thispathwayconsiders threecomponents:
directradiation fromthegenerating facilities, directradiation fromanypossibleoverheadplumeanddirectradiation fromplumesubmersion.
Thedirectradiation pathwayisevaluated bytheuseofhighsensitivity environmental TLD's.Sinceanysignificant fishingactivityneartheEnergyCenteroccursbetweenAprilthroughDecember, environmental TLDdatafortheapproximate periodofApril1-December31,1993wereconsidered.
Datafromtwoenvironmental TLD'sfromtheapproximate areawherethefishingoccurswerecomparedtocontrolenvironmental TLDlocations forthesametimeperiod.TheaveragefishingareaTLDdoseratewas7.0E-03mRemperhourfortheperiod.TheaveragecontrolTLDdoseratewas5.7E-03mRemperhourfortheperiod(approximate second,thirdandfourthcalendarquartersoftheyear).Theaverageincreaseindoseasaresultoffishinginthisareaataconservative frequency ofeighthoursperweekforthirty-nine weeksis4.1E-01mRemfromdirectradiation fortheperiodinquestion.
ThemajorityofthedosefromthispathwayisfromtheNMP1facilitybecause'of itsproximity tothefishingarea.Asmallportionmaybedue.totheNMP2facility.
Theinhalation dosepathwayisevaluated byutilizing theinhalation equationintheODCM,asadaptedfromtheRegulatory Guide1.109.Theequationbasically givesatotalinhalation doseinmRemforthetimeperiodinquestion(April-December).
Thetotaldoseequalsthesum,forallapplicable radionuclides, oftheNMP1stackreleaseconcentration, timestheaverageNMP1stackflowrate, timestheapplicable five-year averagecalculated X/0,timestheinhalation dosefactorsfromRegulatory Guide1.109,TableE-7,timestheRegulatory Guide1.109annualairintake,timesthefractional portionoftheyearinquestion.
Inordertobeslightlyconservative, noradiological decayisassumed.Anindependent technical evaluation oftheoff-sitevendoranalysesperformed byNiagaraMohawkPowerCorporation hasindicated apotential foradiscrepancy inthedataresults.Theresidentinspectors atNineMilePointhavebeeninformedandcorrective actionsinitiated.
FutureSemi-annual Radioactive EffluentReleaseReportswillreflectanychangesasaresultofthistechnical evaluation.
004443LL k0 ATTACHMENT 10Page2of3SEMI-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORT(1993)NINEMILEPOINTNUCLEARSTATIONUNIT1DOSESTOMEMBERSOFTHEPUBLICDUETOTHEIRACTIVITIES INSIDETHESITEBOUNDARYJANUARY-DECEMBER1993The1993calculation utilizedthefollowing information:
NMP1Stack:Unit1averagestackflowrate=1.04+02m'/secX/Qvalue=8.9E-06(annualNWNsector,historical average)Inhalation dosefactor=TableE-7ofRegulatory Guide1.109Annualairintake=8000m'eryear(adult)Fractional portionoftheyear=0.0356(312hours)Co-60=2.91E-01pCi/m'e-55
=1,16E-01pCi/m'r-89
=1.97E-01pCi/m'r-90
=2,33E-02pCi/m'-3=1.03E+04pCi/m'-131
=7,90E-02pCi/m'-133
=7.90E-02pCi/m'-135
=1.42E-02pCi/m'heinhalation dosetoamemberofthepublicasaresultofactivities insidethesiteboundaryis5.03E-04mRemtothelung(maximumorgandose)and4.34E-04mRemtothewholebody,Thedosefromstandingontheshoreline tofishisbasedonthemethodology intheODCM,asadaptedfromRegulatory Guide1.109.During1993,itwasnotedthatfishingwasperformed fromtheshoreline onmanyoccasions althoughwaderswerealsoutilized.
Inordertobeconservative, itisassumedthatthemaximumexposedindividual fishedfromtheshoreline atalltimes.Theuseofwaders,ofcourse,wouldresultinadoseofzerofromthispathway.Theshoreline sedimentdosesarenottakenintoconsideration byenvironmental TLDdata.TheODCMequationbasically givesthetotaldosetothewholebodyandskinfromthesumofallplant-related radionuclides detectedinshoreline sedimentsamples.Theplant-related radionuclide concentration isadjustedforbackground sampleresults,asapplicable.
Theequation, therefore, yieldsthewholebodyandskindosebymultiplying theradionuclide concentration adjustedforanybackground data(asapplicable),
timesausagefactor,timesthesedimentorsoildensityingramspersquaremeter(toadepthofonecentimeter),
timestheapplicable shorewidthfactor,timestheregulatory guidedosefactor,timesthefractional portionoftheyearoverwhichthedoseisapplicable.
Inordertobeconservative andtosimplifytheequation, noradiological decayisassumedsincetheapplicable radionuclides areusuallylonglived.004443LL kgI,J ATTACHMENT 10Page3of3SEMI-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORT(1993)NINEIVllLEPOINTNUCLEARSTATIONUNIT1DOSESTOMEMBERSOFTHEPUBLICDUETOTHEIRACTIVITIES INSIDETHESITEBOUNDARYJANUARY-DECEMBER1993Thecalculation utilizedthefollowing information:
Usagefactor=312hoursDensityingramspermeter=40,000Shorewidthfactor=0.3Wholebodyandskindosefactorforeachradionuclide
=Regulatory Guide1.109,TableE-6Fractional portionoftheyear=1(usedaverageradionuclide concentration overtotaltimeperiod)AverageCs-137concentration
=0.295pCi/gAverageCo-60concentration
=0.031pCi/gThetotalwholebodyandskindosefromstandingontheshoreline tofishis6.61E-03mRemwholebodyand7.73E-03mRemskindosefortheperiod.Dosestomembersofthepublicrelativetoactivities insidethesiteboundaryfromaquaticpathwaysotherthangrounddosefromshoreline sediment/soil arenotapplicable.
Insummary,thetotaldosetoamemberofthepublicasaresultofactivities insidethesiteboundaryfromthedirectradiation, inhalation andshoreline dosepathwaysis4.2E-01mRemtothewholebodyand5.03-04mRemtothemaximumexposedinternalorgan(lung).Thedosetotheskinofanadultis7.73E-03mRem.Thesedosesaregenerally aresultoftheoperation ofNMP1~However,aportionofthesedosesforthedirectradiation pathwaymaybeattributable totheNMP2facility.
004443LL 4~~A{g'l0 ATTACHMENT 11Page1of3SEIVII-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORT(1993)NINEMILEPOINTNUCLEARSTATIONUNIT1RADIATION DOSESTOTHELIKELYMOSTEXPOSEDMEMBEROFTHEPUBLICOUTSIDETHESITEBOUNDARYJANUARY-DECEMBER1993Radiation dosestothelikelymostexposedmemberofthepublicoutsideofthesiteboundaryareevaluated relativeto40CFR190requirements.
Thedoselimitsof40CFR190are25mRem(wholebodyororgan)percalendaryearand75mRem(thyroid) percalendaryear.Theintentof40CFR190alsorequiresthattheeffluents ofNMP2aswellasothernearbyuraniumfuelcyclefacilities beconsidered.
Inthiscase,theeffluents ofNMP1,NMP2andtheJamesA.FitzPatrick (JAF)facilities mustbeconsidered.
Dosestothelikelymostexposedmemberofthepublicasaresultofeffluents fromthesitecanbeevaluated byusingcalculated dosemodelingbasedontheacceptedmethodologies ofthefacilities'ff-site DoseCalculation Manuals(ODCM's)ormay,insomecases,becalculated fromtheanalysisresultsofactualenvironmental samples.Acceptable methodsforcalculating dosesfromenvironmental samplesarealsofoundinthefacilities'DCM's.
ThesemethodsarebasedonRegulatory Guide1.109methodology.
Dosecalculations fromactualenvironmental samplesare,attimes,difficult toperformforsomepathways.
Somepathwaydosesshouldbeestimated usingcalculational dosemodeling.
Thesepathwaysincludenoblegasairdose,inhalation dose,etc.Otherpathwaydosesmaybecalculated directlyfromenvironmental sampleconcentrations usingRegulatory Guide1.109methodology.
Sincetheeffluents fromthegenerating facilities arelow,theresultant gaseousandliquideffluentdosesareanticipated tobelow.Inviewofthis,dosescanbebasedoncalculated data.Dosesarenotbasedonactualenvironmental datafor1993withtheexception ofdosesfromdirectradiation, fishconsumption andshoreline sediment.
Inaddition, inordertobeconservative andforthesakeofsimplicity, itisassumedinthedosecalculations thatthelikelymostexposedmemberofthepublicispositioned inthemaximumreceptorlocationforeachpathwayatthesametime.Thisapproachisutilizedbecausethedosesareverylowandthecomputations aregreatlysimplified.
Thefollowing pathwaysareconsidered:
1.Theinhalation doseiscalculated atthecriticalresidence becauseofthehighoccupancy factor,Inordertobeconservative, themaximumwholebodyandorgandoseassumesnocorrection forresidinginsidearesidence.
2.Themilkingestion doseiscalculated utilizing themaximummilkcowlocation.
Asnotedpreviously, inordertobeconservative andforthesakeofsimplicity, thelikelymostexposedmemberofthepublicisassumedtobeatallcriticalreceptors atonetime.Inthiscase,thememberofthepublicatthecriticalresidence isassumedtoconsumemilkfromthecriticalmilklocation.
3.Themaximumdosefromthemilkingestion pathwayasaresultofconsuming goat'smilkisbasedonthesamecriteriaestablished foritem"2",above(ingestion ofcow'smilk).Anindependent technical evaluation oftheoff-sitevendoranalysesperformed byNiagaraMohawkPowerCorporation hasindicated apotential foradiscrepancy inthedataresults.Theresidentinspectors atNineMilePointhavebeeninformedandcorrective actionsinitiated.
FutureSemi-annual Radioactive EffluentReleaseReportswillreflectanychangesasaresultof,thistechnical evaluation.
004443LL h")
ATTACHIVIENT 11Page2of3SEIVII-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORT(1993)NINEMILEPOINTNUCLEARSTATIONUNIT1RADIATION DOSESTOTHELIKELYMOSTEXPOSEDMEIVIBEROFTHEPUBLICOUTSIDETHESITEBOUNDARYJANUARY-DECEMBER19934,Themaximumdoseassociated fromconsuming meatisbasedonthecriticalmeatanimal.Thelikelymostexposedmemberatthecriticalresidence isassumedtoconsumemeatfromthecriticalmeatanimallocation.
6.Themaximumsitedoseassociated withtheconsumption ofvegetables iscalculated fromthecriticalvegetable gardenlocation.
Asnotedpreviously, thelikelymostexposedmemberofthepublicisassumedtobelocatedatthecriticalresidence andisassumedtoconsumevegetables fromthecriticalgardenlocation.
Thedose,asaresultofdirectgammaradiation fromthesite,encompasses dosesfromdirect"shine"fromthegenerating facilities, directradiation fromanyoverheadgaseousplumes,plumesubmersion andfromgrounddeposition.
Thistotaldoseismeasuredbyenvironmental TLD.Thecriticallocationisbasedontheclosestyear-round residence fromthegenerating facilities aswellastheclosestresidence inthecriticaldownwindsectorinordertoevaluatebothdirectradiation fromthegenerating facilities andgaseousplumesasdetermined bythelocalmeteorology.
During1993,theclosestresidence andthecriticaldownwindresidence areatthesamelocation.
7.8.Themeasuredaveragedosefor1993atthecriticalresidence was54.2mRem.Theaveragecontroldosewas50.0mRem.Theaveragedoseatthecriticalresidence isslightlygreaterthantheaveragecontrollocationdose.Thenetincreaseindoseisduetothedifferences betweendosesfromnaturally occurring radionuclides inthesoilandrockatthedifferent locations andduetothestandarddeviation inTLDmeasurements.
Thisdifference indoseratecanbedemonstrated byobserving the1993averagedoseforanenvironmental TLDlocatednearthecriticalresidence TLD,butapproximately 700feetclosertothegenerating facilities.
TheannualaveragedoseforthisTLDlocationwas51.3mRem.Thedoseforthislocationislowerthanthecriticalresidence locationeventhoughtheyareclosetooneanotherandeventhoughtheTLDlocationwiththelowestdoseisclosertothegenerating facilities.
Thedose,asaresultoffishconsumption, isconsidered aspartoftheaquaticpathway.Thedosefor1993iscalculated fromactualresultsoftheanalysisofenvironmental fishsamples.Forthesakeofbeingconservative, theaverageplant-related radionuclide concentrations wereutilizedfromfishsamplestakennearthesitedischarge points.OnlyCs-137wasdetectedduring1993.Adjusting theaverageconcentration ofCs-137inindicator samplesbysubtracting theaverageconcentration ofCs-137incontrolsampesresultedinanetnegativeconcentration.
Therefore, nodosewascalculated andassumedtobezeroforthispathway.Theshoreline sedimentpathwayisconsidered relativetorecreational activities.
Thedoseduetorecreational activities fromshoreline sedimentisbasedonthemethodology intheODCMasadaptedfromRegulatory Guide1.109.TheODCMgivesthetotaldosetothewholebodyandskinfromthesumofplant-related radionuclides detectedinactualshoreline sedimentsamples.Theplant-related radionuclide concentration isadjustedforbackground sampleresults,asapplicable.
Thetotalwholebodyandskindosefromshoreline recreational activities is1.02E-03mRemwholebodyand1.19E-03mRemskindosefortheperiod.004443LL
- 4)
ATTACHMENT 11Page3of3SEMI-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORT(1993)NINEMILEPOINTNUCLEARSTATIONUNIT1RADIATION DOSESTOTHELIKELYIVIOSTEXPOSEDMEMBEROFTHEPUBLICOUTSIDETHESITEBOUNDARYJANUARY-DECEIVIBER 19939.Insummary,themaximumdosetothemostlikelyexposedmemberofthepublicis1.67E-01mRemtothethyroid(maximumorgandose)and3.97E-02mRemtothewholebody.Itshouldbenotedthatthemaximumorgandoseandmaximumwholebodydosesarebasedonthesumofthemaximumdosesobservedforallthreefacilities regardless ofagegroup.Thisresultsinsomeconservatism.
Themaximumorganandwholebodydoseswerearesultofgaseouseffluents.
Dosesasaresultofliquideffluents weresecondary.
Thetotalwholebodyandskindosefromshoreline recreational activities are1.02E-03mRemwholebodyand1.19E-03mRemskindosefortheperiod.Thedirectradiation dosetothecriticalresidence fromthegenerating facilities wasinsignificant orzero.Thedosetoanindividual asaresultoffishconsumption wasalsozero.Thesemaximumtotaldosesarearesultofoperations attheNineMilePointUnit1,NineMilePointUnit2andtheJamesA,Fitzpatrick facilities.
Themaximumorgandoseandwholebodydosearebelowthe40CRF190criteriaof25mRempercalendaryeartothemaximumexposedorganorthewholebody,andbelow75mRempercalendaryeartothethyroid.004443LL l'l UPDATETOTHEPREVIOUSREPORTS004443LL tt4II1'If Unit1XUnit2Reporting PeriodJanus-Juno1993UPDATEOFRELEASEANDDOSEDATAFORGASEOUSEFFLUENTS
-ELEVATEDANDGRODNDLEVELUGVIDEFFLUENTS Updateofdateusingactualresultsfromtheoff-sitevendorsforStrontium, Tritium,andIron-55forthesecondquarterof1993.Particulates NuclidetSr-89Sr-90K-3Fe-551.Particulates withhalf-lives
)8days2.AveragereleaserateforperiodGASEOUS2QUARTERAetidteCJt 4.48E-056.31E+002.08E-05CipCI/secUQUID2QUARTER5.42E-05LIQUID~NADNA~AclMtCiNoReleasesNoReleasesNoReleasesNoReleasesGASEOUS3.98E-04TritiumTritiumlodinesondParticulates withhalf-livesresterthan8do81.Totalrelease2.AveragereleaserateforperiodCipCi/sec6.31E+008.60E-01GASEOUS~NA~NALIQUID1.PercentofQuarterly DoseUmlt2.PercentofAnnualDoseLimittoDate3.PercentofOrgan-DoseRateUmit(Gaseous)(Quarterly)
-DoseUmit(Uquid)(AnnualIkQuarterly) 4.Percentof1OCFR20Concentration Umit(0quid)5.PercentofDissolved orEntrained NobleGas(Liquid)1.06E-01(Quarterly) 9.85E-01(Annual)2.27E-03(Quarterly)
~NA(Annual)N/A~A(Quarterly)
~NA(Annual)~NA(Quarterly)
~NA(Annual)Concentrations lessthantholowerlimitofdetection, asrequiredbyTechnical Specifications areindicated withadoubleasterisk.
Thodoseistothomaximally exposedorganforgaseouseffluents.
004443LL
'k1IA ATTACHMENT BtPage5of6Unit1XUnit2Reporting PeriodJanus-June1993SOUDWASTEANDIRRADIATED FUELSHIPMENTS C.SOLIDWASTESHIPPEDOFF-SITETOVENDORSFORPROCESSING ANDSUBSEQUENT BURIALBelowisasummaryofDryActiveWastethatwasshippedoff-siteforprocessing andburialbyvendorfacilities (i.e.,ALARON,QUADREX,and/orSCIENTIFIC ECOLOGYGROUP)duringJanus-June1993.Thesetotalswerereportedseparately from"10CFR61SolidWasteShippedforBurial"(i.e.,SectionAofTable3A)since(a)wasteciassificat(on andburialwasperformed bythevendors,and(b)Technical Specification 6.9.1requiresreporting of"information foreachclassofsolidwaste(asdefinedby10CFR61)shippedoff-siteduringthereporting period".Theinformation providedinthissection,therefore, isinadditiontothatrequiredbytheTechnical Specifications.
Thefollowing datarepresents theactualshipments madefromtheoff-sitevendorsofournon.compacted commingled trashthatwasprocessed priortoburial.C.1.TYPEOFWASTE-noncompacted commingled trashandcontaminated fuelpoolequipment shippedtoOakRidge,TNforprocessing priortoburialatBarnwell, SCBurialVolume~mActivity~CIEst.Total~Emr1929+012.71E-019.00n01C.2.ESTIMATEOFMAJORNUCLIDECOMPOSITION NuclidePercent(1)C0-60(2)Cs-137(3)Mn-54(4)C0-58(5)Fe-59(6)OtherC.3.SOLIDWASTEDISPOSITIONs 5.98E+012.27E+019.54E+005.10E+001.88E+009.34E-01NumberofShimentsModeofTransortationTruckTruck~0B8Elh8I09nwlt00RlnhlndWAThisAttachment 6supersedes theinformation providedintheJanuary-Juno 1993Semi-Annual Radioactive EffluentReleaseReportforNineMilePointNuclearStationUnit1.Thenumberofshipments reportedhererepresents thetotalnumberthatwasshippedfromtheoff-sitevendorforburial.Thisdoesnotrepresent thenumberofshipments NiagaraMohawksenttobeprocessed.
004443LL
NINEMILEPOINTNUCLEARSTATIONNINEMILEPOINTUNIT1OFF-SITEDOSECALCULATION MANUALODCMAPPROVALS SIGNATURES~M DATEANDINITIALSREVISION13K.A.DahlbergPlantManagerUnit1C.D.TerryV.P.NuclearEngineering NIAGARAMOHAWKPOWERCORPORATION 004152LLUnit1ODCMRevision13October1993 I
SUMMARYOPREVISIONS PAGERevision13Effective 12/31/93DATElg2i5g6g8i9i1113/1518'1'4i25/3644i4749'2-81,86-1163i4/7g10'4/19'0'2'3'6 3545i46f50i51~8285*29*64(77(7819~21i22AJ22Bg124'5i26i112igii,iii,12-16,18,28-40,45-4752i55'989J92J93'7129'1-93, 953,4,21,92,95a-c10,16-205i13'8'0'530'5'966,69February1987December1987January1988May1988(Reissue)
May27,1988-(Reissue)
February1990June1990June1992February1993March1993June1993December1993004152LLUnit1ODCMRevision13December1993 IL~1kk"iVh,fly+4j,A4'~'
ODCM-NINEMILEPOINTUNIT1TABLEOFCONTENTS
1.0INTRODUCTION
2'LIQUIDEFFLUENTS Pacae2.1SetpointDeterminations 2.1.1Basis2.1.2ServiceWaterSystemEffluentAlarmSetpoint2.1.3LiquidRadwasteEffluentAlarmSetpoint2.1.4Discussion 2.1.4.1ControlofLiquidEffluentBatchDischarges 2.1.4.2Simultaneous Discharges ofRadioactive Liquids2.1.4.3SampleRepresentativeness 2.1.4.4.LiquidRadwasteSystemOperation 2.1.4.5ServiceWaterSystemContamination 2.22.3LiquidEffluentConcentration Calculation DoseDeterminations 2.3.1MaximumDoseEquivalent Pathway3.0GASEOUSEFFLUENTS 103.13.1.13.1.23.1.33.1.43.1.53.1.5.13.1.5.23.1.5.3SetpointDeterminations BasisjStackMonitorSetpoints
'ecombiner Discharge (OffGas)MonitorSetpoints Emergency Condenser VentMonitorSetpointDiscussion StackEffluentMonitoring SystemDescription StackSampleFlowPath-HAGEMSStackSampleFlowPath-OGESMS101010121313131314004152LLUnit1ODCMRevision13December1993 TNt<<w,I ODCM-NINEMILEPOINTUNIT1TABLEOFCONTENTS(Cont'd)3.1.5.43.1.5.53.1.5.63.23.2.13.2.1.13.2.1.23.2.23.2.2.13.2.2.23.2.2.33.33.44.04.24.34.45.05.15.25.3SampleFrequency/Sample AnalysisI-133Estimates GaseousRadwasteTreatment SystemOperation DoseandDoseRateDetermination DoseRateNobleGasesTritium,IodinesandParticulates DoseNobleGasAirDoseTritium'Iodines andParticulates Accumulating DosesCriticalReceptors Refinement ofOffsiteDosesResulting FromEmergency Condenser VentReleases40CFR190REQUIREMENTS Evaluation ofDosesFromLiquidEffluents Evaluation ofDosesFromGaseousEffluents Evaluation ofDosesFromDirectRadiation DosestoMembersofthePublicWithintheSiteBoundaryENVIRONMENTAL MONITORING PROGRAMSamplingStationsInterlaboratory Comparison ProgramCapabilities forThermoluminescent Dosimeters UsedforEnvironmental Measurements Pacae14141515161618191920212122232425262629292930004152LLUnit1ODCMRevision13December1993 I,,P~4 ODCM-NINEMILEPOINTUNIT1TABLEOFCONTENTS(Cont')Table1-1Tables2-1to2-8Table3-1Table3-2Table3-3AverageEnergyPerDisintegration
~ValuesfortheNMP-1FacilityCriticalReceptorDispersion Parameters forGroundIevelandElevatedReleasesGammaAirandWholeBodyPlumeShineDoseFactorsforNobleGases(B,andV~)Immersion DoseFactorsforNobleGasesPacae3233414243Tables3-4to3-22Table3-23Table5.1Figure5.1-1Figure5.1-2OrganDoseandDoseRateFactors(R,)Parameters fortheEvaluation ofDosestoRealMembersofthePublicfromGaseousandLiquidEffluents NMP-1Radiological Environmental Monitoring ProgramSamplingLocations NineMil'ePointOn-SiteMapNineMilePointOffsiteMap63646869Figure5.1.3-1SiteBoundaries 70AppendixAAppendixBAppendixCAppendixDLiquidDoseFactorDerivation (A)PlumeShineDoseFactorDerivation (B,andV,)OrganDoseandDoseRateFactorsforIodine-1316133,Particulates andTritium(R;)DiagramsofLiquidandGaseousRadwasteTreatment Systems71747888004152LL-iii-Unit1ODCMRevision13December1993
'tSVJWV
1.0INTRODUCTION
TheOffsiteDoseCalculation Manual(ODCM)providesthemethodology tobeusedfordemonstrating compliance withtheRadiological 3'ffluent T).chnical Specifications (RETS),10CFR20,10CFR50,and40CFR190.ThecontentsoftheODCMarebasedonDraftNUREG-0472, Revision3,"Standard Radiological EffluentTechnical Specifications forPressurized WaterReactors,"
September 1982;DraftNUREG-0473, Revision2,"Radiological EffluentTechnical Specifications forBWR's","July1979;NUREG0133,"Preparation ofRadiological EffluentTechnical Specifications forNuclearPowerPlants,"October1978;theseveralRegulatory Guidesreferenced inthesedocuments; and,communication withtheNRCstaff.Section5containsadetaileddescription oftheRadiological Environmental Monitoring (REM)samplinglocations.
Shoulditbenecessary torevisetheODCM,theserevisions willbemadeinaccordance withTechnical Specifications.
004152LLUnit1ODCMRevision13December1993 S~,~5eltIllF~"
2.0F12.F1LIQUIDEFFLUENTS SetpointDeterminations BasisMonitorsetpoints willbeestablished suchthattheconcentration ofradionuclides intheliquideffluentreleasesinthedischarge canalwillnotexceedthoseconcentrations asspecified in10CFR20,AppendixB,TableII,Column2.Setpoints fortheServiceWaterSystemEffluentLinewillbecalculated quarterly basedontheradionuclides identified duringthepreviousyear'sreleasesfromtheliquidradwastesystemortheisotopesidentified inthemostrecentradwastereleaseorotheridentified probablesource.Setpoints fortheLiquidRadwasteEffluentLinewillbebasedontheradionuclides identified ineachbatchofliquidwastepriortoitsrelease.Afterrelease,theLiquidRadwastemonitorsetpointmayremainasset,orrevertbacktoasetpointbasedonapreviousSemi-Annual Radioactive EffluentReleaseReport,orinstallblankflangeinthedischarge lineanddeclareinoperable inaccordance withthetechnical specification.
2'.2SincetheServiceWaterSystemeffluentmonitorandLiquidRadwasteeffluentmonitorcanonlydetectgammaradiation, thealarmsetpoints arecalculated byusingtheconcentration ofgammaemittingisotopesonly(orthecorresponding MPCvaluesforthesameisotopes, whichever arehigher)intheZ,(pCi/ml)p expression (Section2.1.2,2.1.3).TheRequiredDilutionFactoriscalculated usingconcentrations ofallisotopespresent(orthecorresponding MPCvaluesforthesameisotopes, whichever arehigher)including tritiumandothernon-gamma emitterstoensurethatallradionuclides inthedischarge canaldonotexceed10CFR20limits.ServiceWaterSystemEffluentLineAlarmSetpointThedetailedmethodsforestablishing setpoints fortheServiceWaterSystemEffluentLineMonitorshallbecontained intheNineMilePointStationProcedures.
Thesemethodsshallbeinaccordance withthefollowings
((pCi/mi)lr/MPCI)
ISetpoint(Alertalarm)(0.7ZCimlCFTDFF+background
((pCiml)nMPC))I(pCi/ml)+(pCi/ml)nTDFconcentration ofgammaemittingisotopeiinthesample,orthecorresponding MPCofgammaemittingisotopei(MPC)whichever ishigher(units=pCi/ml).concentration ofanyradioactive isotopeiinthesampleincluding tritiumandothernon-gamma emittersorcorresponding MPCofisotopei,MPCwhichever ishigher(units~pCi/ml).TotalDilutionFlow(units~gallons/minutes).
ServiceWaterFlow(units=gallons/minutes).
004152LLUnit1ODCMRevision13December1993 Jr't4+'IW~IV"",A 2.1.2ServiceWaterSystemEffluentLineAlarmSetpoint(Cont'd)CFMPHmonitorcalibration factor(unitsnetcpm/pCi/ml
).liquideffluentradioactivity concentrations limitforradionuclide iasspecified in10CFR20,AppendixB,TableII,Column2.Sample(MPC)vThosenuclidespresenti.nthepreviousbatchreleasefromtheliquidradwasteeffluentsystemorthosenuclidespresenti.nthelastSemi-annual Radioactive EffluentReleaseReport(units~pCi/ml)orthosenuclidespresentintheservicewatersystem.**
sameasMPC,butforgammaemitti.ng nuclidesonly.0.9and0.7factorsofconservatism toaccountforinaccuracies.
E,[(pCi/ml)z/MPC,]
=RequiredDilutionFactor.IfMPCvaluesareusedinthe(pCi/ml)+,
theymustalsobeusedincalculating RDF(numerator).
TDF/F~ActualDilutionFactor2'~3LiquidRadwasteEffluentLi.neAlarmSetpointThedetailedmethodsforestablishing setpoints fortheLi.quidRadwasteEffluentLineMonitorshallbecontained intheNineMilePoi.ntStationProcedures.
Thesemethodsshallbeinaccordance withthefollowings E~[(pCi/ml)s'/MPCI)(pCi/ml)+
,[(pCi/ml)z/MPC,]concentration ofgammaemittingisotopeiinthesampleorthecorresponding MPCofgammaemittingisotopei,(MPC),whichever ishigher.(pCi/ml)~concentration ofanyradioactive isotopeiinthesampleincluding tritiumandothernon-gamma emittersorthecorresponding MPCofisotopeiMPC,whichever ishigher.(uni.ts=pCi/ml).TDFCFTotalDi.lution Flow(units=gallons/minutes).
RadwasteEffluentFlow(units=gallons/minutes).
monitorcalibration factor(units=netcps/pCi/ml).
- ForperiodswithknownreactorwatertoRCLCsystemleakage,RCLCmaximumpermissible concentration maybeprudently substituted fortheabove.004152LLUnit1ODCMRevision13December1993 NtItgtg~g>lt+'
2LiquidRadwasteEffluentLineAlarmSetpoint(Cont'd)MPC)(MPC)I0.9and0.7liquideffluentradioactivity concentration limitforradionuclide iasspecified in10CFR20,AppendixB,TableII,Column2,forthose.nuclidesdetectedbyspectralanalysisofthecontentsoftheradwastetankstobereleased.
(units=pCi/ml)sameasMPC,butforgammaemittingnuclideonly.factorsofconservatism toaccountforinaccuracies.
E((pCi/ml)s/MPC,]=RequiredDilutionFactor.IfMPCvaluesareusedinthe(pCi/ml)+,
theymustalsobeusedincalculating RDF(numerator).
Notes:(a)IfTDF/F=Zi[(pCi/ml)s/MPC,]
thedischarge couldnotbemade,sincethemonitorwouldbecontinuously inalarm.Toavoidthissituation, Fwillbereduced(normally byafactorof2)toallowsettingthealarmpointataconcentration higherthantankconcentration.
Thiswillalsoresultinadischarge canalconcentration atapproximately 50%maximumpermissible concentration.
(b)ThevalueusedforTDFwillbereducedbythefractional quantity(1-FT),whereFTistempering fraction(i.e.,diversion ofsomefractionofdischarge flowtotheintakecanalforthepurposeoftemperature control).
2.1.4Discussion
~~2.1.4.1ControlofLiquidEffluentBatchDischarges AtNineMilePointUnit1LiquidRadwasteEffluents arereleasedonlyonabatchmode.Topreventtheinadvertent releaseofanyliquidradwasteeffluents, radwastedischarge ismechanically isolated(blankflangeinstalled ordischarge valvechain-locked closed)following thecompletion ofabatchreleaseorseriesofbatchreleases.
2.1.4.2Thismechanical isolation remainsinplaceandwillonlyberemovedpriortothenextseriesofliquidradwastedischarges afterallanalysesrequiredinstationprocedures andTechnical Specification Table4.6.15-1A areperformed andmonitorsetpoints havebeenproperlyadjusted.
Simultaneous Discharges ofRadioactive Liquids.Ifduringthedischarge ofanyliquidradwastebatch,thereisanindication thattheservicewatercanalhasbecomecontaminated (throughaservicewatermonitoralarmorthroughagrabsampleanalysisintheeventthattheservicewatermonitorisinoperable) thedischarge shallbeterminated immediately.
Theliquidradwastedischarge shallnotbecontinued untilthecauseoftheservicewateralarm(orhighgrabsampleanalysisresult)hasbeendetermined andtheappropriate corrective measurestakentoensure10CFR20,AppendixB,TableII,Column2(Technical Specification Section3.6.15.a(1))
limitsarenotexceeded.
004152LLUnit1ODCMRevision13December1993 vt,~-'9'reXy~~kjUWl~lri'~~okp11 2'.4.2Simultaneous Discharges ofRadioactive-Liquids(Cont'd)Inaccordance withSiteChemistry procedures, controlsareinplacetoprecludeasimultaneous releaseofliquidradwastebatchtanks.-I'nadditioii,"
anindependent verification of,thedischarge valveline-upisperformed priortodischarge toensurethatsimultaneous discharges areprevented.
2.1.4.3SamplingRepresentativeness ThissectioncoversTechnical Specification Table4.6.15-1Notebconcerning thoroughly mixingofeachbatchofliquidradwastepriortosampling.
LiquidRadwasteTanksscheduled fordischarge atNineMilePointUnit1areisolated(i.e.inletvalvesmarkedup)andatleasttwotankvolumesofentrained fluidsarerecirculated priortosampling.
Minimumrecirculation timeiscalculated asfollows:MinimumRecirculation Time=2.0(T/R)Where:2.0~Plantestablished mixingfactor,unitlessT~Tankvolume,galR~Recirculation flowrate,gpmAdditionally, theHiAlarmsetpointoftheLiquidRadwasteEffluentRadiation Monitorissetatavaluecorresponding tonotmorethan70%ofitscalculated responsetothegrabsampleorcorresponding MPCvalues.Thus,thisradiation monitorwillalarmifthegrabsample,orcorresponding MPCvalue,issignificantly lowerinactivitythananypartofthetankcontentsbeingdischarged.
2.1.4'~~~LiquidRadwasteSystemsOperation Technical Specification 3.6.16.arequiresthattheliquidradwastesystemshallbeusedtoreducetheradioactive materials inliquidwastespriortotheirdischarge, asnecessary, tomeettheconcentration anddoserequirements ofTechnical Specification 3.6.15.Utilization oftheradwastesystemwillbebasedonthecapability oftheindicated components ofeachprocesssystemtoprocesscontentsoftherespective lowconductivity andhighconductivity collection tanks:1)LowConductivity (Equipment Drains):RadwasteFilterandRadwasteDemin.(SeeFig.B-1)2)HighConductivity (FloorDrains):WasteEvaporator (SeeFig.B-1)Cumulative dosecontributions fromliquideffluents forthecurrentcalendarquarterandthecurrentcalendaryearshallbedetermined asdescribed inSection2.3ofthismanualpriortothereleaseofeachbatchofliquidwaste.Thissamedoseprojection ofSection2.3willalsobeperformed intheeventthatuntreated liquidwasteisdischarged, toensurethatthedoselimitsofTechnical Specification 3.6.15.a(2) arenotexceeded.
(Therebyimplementing therequirements of10CFR50.36a, GeneralDesignCriteria60ofAppendixAandtheDesignObjective giveninSectionII-DofAppendixIto10CFR50).004152LLUnit1ODCMRevision13December1993 hpV4'.i~C\CU,e,P+h$+1 2.1.4.4LiquidRadwasteSystemsOperation (Cont'd)Forthepurposeofdosepro)ection, thefollowing assumptions shallbemadewithregardtoconcentrations ofnon-gamma emitting~radionuclides subsequently analyzedoff-site:
a)[H-3]5H-3Concentration foundrecentcondensate storagetankanalysis2.1.4.5b)[Sr-89]s4xCs-137Concentration c)[Sr-90]50.5xCs-137Concentration d)[Fe-55]51xCo-60Concentration AssumedScalingFactorsusedinb,c,anddaboverepresent conservative estimates derivedfromanalysisofhistorical datafromprocesswastestreams.'ollowing receiptofoff-siteH-3,Sr-89,Sr-90andFe-55analysisinformation, doseestimates shallberevisedusingactualradionuclide concentrations andactualtankvolumesdischarged.
ServiceWaterSystemContamination Servicewaterisnormallynon-radioactive.
Ifcontamination issuspected, asindicated byasignificant increaseinservicewatereffluentmonitorresponse, grabsampleswillbeobtainedfromtheservicewaterdischarge linesandagammaisotopicanalysismeetingtheLLDrequirements ofTechnical Specification Table4.6.15-1completed.
Ifitisdetermined thataninadvertent radioactive discharge isoccurring fromtheservicewatersystem,then:a)A50.59safetyevaluation shallbeperformed (ref.ICEBulletin80-10),2~2b)dailyservicewatereffluentsamplesshallbetakenandanalyzedforprincipal gammaemittersuntilthereleaseisterminated, c)anincidentcomposite shallbepreparedforH-3,grossalpha,Sr-89,Sr-90andFe-55analysesand,d)dosepro)ections shallbeperformed inaccordance withSection2.3ofthismanual(usingestimated concentrations forH-3,Sr-89,Sr-90andFe-55tobeconservatively determined bysupervision atthetimeoftheincident).
Additionally, servicewatereffluentmonitorsetpoints mayberecalculated usingtheactualdistribution ofisotopesfoundfromsampleanalysis.
LiquidEffluentConcentration Calculation Thiscalculation documents compliance withTechnical Specification Section3.6.1.5.a (1).Theconcentration ofradioactive materialreleasedinliquideffluents tounrestricted areas(seeFigureB-7)shallbelimitedtotheconcentrations specified in10CFR20,AppendixB,TableII,Column2,forradionuclides otherthandissolved orentrained noblegases.Fordissolved orentrained noblegases,theconcentration shallbelimitedto2E-4microcurie/milliliter (pCi/ml)totalactivity.
004152LLUnit1ODCMRevision13December1993 lb*
2~2LiquidEffluentConcentration Calculation (Cont'd)Theconcentration ofradioactivity fromLiquidRadwastebatchreleasesand,ifapplicable, ServiceWaterSystemandemergency condenser
+tart-upventdischarges areincludedinthecalculation Thecalculation isperformed foraspecificperiodoftime.Nocredittakenforaveraging overthecalendaryearaspermitted by10CFR20.106.
Thelimitingconcentration iscalculated asfollows:MPCFraction~E<[(E,CF,)/(MPC; E,F,)]Where:MPCFractionThelimitingconcentration of10CFR20,AppendixB~TableII,forradionuclides otherthandissolved orentrained noblegases.Fornoblegases,theconcentration shallbelimitedto2E-4microcurie/ml totalactivity.
C~(pCi/ml)
~Theconcentration ofnuclideiinparticular effluentstreams,pCi/ml.F,"MPCiTheflowrateofaparticular effluentstreams,gpm.Thelimitingconcentration ofaspecificnuclideifrom10CFR20,AppendixB,TableII,Column2(noblegaslimitis2E-4pCi/ml).Z,(pCi/ml)F,)
=Thetotalactivityrateofnuclidei,inalleffluentstreamss.2~32.3~1Thetotalflowrateofalleffluentstreamss,gpm(including thosestreamswhichdonotcontainradioactivity)
.AvalueoflessthanoneforMPCfractionisconsidered acceptable forcompliance withTechnical Specification Section3.6.15.a.(1).
DoseDetermination MaximumDoseEquivalent PathwayAdoseassessment reportwaspreparedfortheNineMilePointUnit1facilitybyCharlesT.Main,Inc.,ofBoston,MA.Thisreportpresented thecalculated doseequivalent ratestoindividuals aswellasthepopulation withina50-mileradiusofthefacilitybasedontheradionuclides releasedinliquidandgaseouseffluents duringthetimeperiodsof1July1980through31December1980andfromJanuary1981through31December1981.Theradwasteliquidreleasesarebasedonacanaldischarge rateof590ft~/secwhichaffectsnearfieldandfarfielddilution; therefore, thisreportisspecifictothissituation.
Utilizing theeffluentdatacontained intheSemi-Annual Radioactive EffluentReleaseReportsassourceterms,doseequivalent ratesweredetermined usingtheenvironmental pathwaymodelsspecified inRegulatory Guides1.109and1.111asincorporated intheNRCcomputercodesLADTAPforliquidpathways, andXOQDOQandGASPARforgaseouseffluentpathways.
Doseequivalent rateswerecalculated for'thetotalbodyaswellassevenorgansand/ortissuesfortheadult,teen,child,andinfantagegroups.Fromthestandpoint ofliquideffluents, thepathwaysevaluated includedfishanddrinkingwateringestion, andexternalexposuretowaterandsediment.
004152LLUnit1ODCMRevision13December1993
,lfmI' 2.3.1MaximumDoseEquivalent Pathway(Cont'd)Thema)orityofthedoseforaradwasteliquidbatchreleasewasreceivedviathefishpathway.However,tocomplywithTechnical Specifications fordosepro)ections, thedrinkingwaterandsedimentpathwaysareincluded.
Therefore, alldosesduetoliquideffluents arecalculated monthlyforthefishanddrinkingwateringestion pathwaysandthesedimentexternalpathwayfromalldetectednuclidesinliquideffluents releasedtotheunrestricted areastoeachorgan.Thedoseprojection forliquidbatchreleaseswillalsoincludedischarges fromtheemergency condenser ventasapplicable, forallpathways.
Eachagegroupdosefactori~iisgiveninTables1-1to1-8.Toexpeditetimethedoseiscalculated foramaximumindividual insteadofeachagegroup.Thismaximumindividual willbeacomposite ofthehighestdosefactorofeachagegroupforeachorgan,henceA.Thefollowing expression fromNUREG0133,Section4.3isusedtocalculate dosesi(ASi(r.a.i))Where:D,Thecumulative dosecommitment tothetotalbodyoranyorgan,fromtheliquideffluents forthetotaltimeperiod(dT),mrem.hT~ThelengthoftheLthtimeperiodoverwhichC~andFzareaveragedforallliquidreleases, hours.Cz=Theaverageconcentration ofradionuclide, i,inundiluted liquideffluents duringtimeperiodhTfromanyliquidrelease,pCi/ml.Thesiterelatedingestion dosecommitment factortothetotalbodyoranyorgantforeachidentified principal gammaorbetaemitterforamaximumindividual, mrem/hrperpCi/ml.ThenearfieldaveragedilutionfactorforCaduringanyliquideffluentrelease.Definedastheratioofthemaximumundiluted liquidwasteflowduringreleasetotheaverageflowfromthesitedischarge structure tounrestricted receiving waters,unitless.
Avaluesforradwasteliquidbatchreleasesatadischarge rate"of295ft~/sec(onecirculating waterpumpinoperation) arepresented intables1-1to1-4.Avaluesforanemergency condenser ventreleasearepresented intables1-5to1-8.Theemergency condenser ventreleasesareassumedtotraveltotheperimeter drainsystemandreleasedfromthedischarge structure atarateof.33ft/sec.SeeAppendixAforthedosefactorQ,derivation.
Toexpeditetimethedoseiscalculated toamaximumindividual.
Thismaximumindividual isacomposite ofthehighestdosefactorAofeachagegroupaforeachorgantandeachnuclidei.Ifanuclideisdetectedforwhichafactorisnotlisted,thenitwillbecalculated andincludedinarevisiontotheODCM.Alldosescalculated inthismannerforeachbatchofliquideffluentwillbesummedforcomparison withquarterly andannuallimits,addedtothedosesaccumulated fromotherreleasesinthequarterandyearofinterest.
Inallcases,thefollowing relationships willhold:004152LLUnit1ODCMRevision13December1993 JkQ'tfqnI'lInfl~i~4" 2.3.1XaxisLuaDoseEquivalent Pathway(Cont'd)ForacalendarquartersD,<1.5mremtotalbodyD,<5mremforanyorganForthecalendaryear:D,<3.0mremtotalbodyD,<10mremforanyorganWhere:D,totaldosereceivedtothetotalbodyoranyorganduetoliquideffluentreleases.
Iftheselimitsareexceeded, aspecialreportwillbesubmitted totheNRCidentifying thecauseandproposedcorrective actions.Inaddition, iftheselimitsare"exceeded byafactoroftwo,calculations shallbemadetodetermine ifthedoselimitscontained in40CFR190havebeenexceeded.
Doselimits,ascontained in40CFR190aretotalbodyandorgandosesof25mremperyear'andathyroiddoseof75mremperyear.Thesecalculations willincludedosesasaresultofliquidandgaseouspathwaysaswellasdosesfromdirectradiation.
Theliquidpathwayanalysiswillonlyincludethefishandsedimentpathwayssincethedrinkingwaterpathwayisinsignificant.
Thispathwayisonlyincludedinthestation's effluentdoseprojections tocomplywithTechnical Specifications.
Liquid,gaseousanddirectradiation pathwaydoseswillconsidertheJamesA.FitzPatrick andNineMilePointUnitIIfacilities aswellasNineMilePointUnitINuclearStation.Intheeventthecalculations demonstrate thatthe40CFR190doselimits,asdefinedabove,havebeenexceeded, thenareportshallbepreparedandsubmitted totheCommission within30daysasspecified inSection3.6.15.doftheTechnical Specifications.
Section4.0oftheODCMcontainsmoreinformation concerning calculations foranevaluation ofwhether40CFR190limitshavebeenexceeded.
004152LLUnit1ODCMRevision13December1993
~Igl~~'IQ.J-it~(Tf"A~ajgQ),"y,qVI~IIV'~I%III'llewI 3~0GiLSEOUSEFFLUENTS F1SatpoiatDeterminations 3'.1:BasisStackgasandoffgasmonitorsetpoints willbeestablished suchthattheinstantaneous releaserateofradioactive materials ingaseouseffluents doesnotexceedthe10CFR20limitsforannualreleaserate.Thesetpoints willbeactivated iftheinstantaneous doserateatorbeyondthe(land)siteboundarywouldexceed500mrem/yrtothewholebodyor3000mrem/yrtotheskinfromthecontinuous releaseofradioactive noblegasinthegaseouseffluent.
Emergency condenser ventmonitorsetpoints willbeestablished suchthatthereleaserateforradioactive materials ingaseouseffluents donotexceedthe10CFR20limitsforannualreleaserateoverthepro)ected longestperiodofrelease.Monitorsetpoints fromcontinuous releasepointswillbedetermined onceperquarterundernormalreleaserateconditions andwillbebasedontheisotopiccomposition oftheactualreleaseinprogress, oranoffgasisotopicdistribution oramoreconservative defaultcomposition specified inthepertinent procedure.
Ifthe,calculated setpointishigherthantheexistingsetpoint, itisnotmandatory thatthesetpointbechanged.Monitorsetpoints foremergency condenser ventmonitorsareconservatively fixedat5mr/hrforreasonsdescribed inSections3.1.4andtherefore donotrequireperiodicrecalculations.
Underabnormalsitereleaserateconditions, monitoralarmBetpoints fromcontinuous releasepointswillberecalculated and,ifnecessary, resetatmorefrequentintervals asdeemednecessary byCORMSupervision.
Inparticular, contributions frombothJAFandNMP-2andtheEmergency Condenser Ventsshallbeassessed.
Duringoutagesanduntilpoweroperation isagainrealized, thelastoperating stackandoffgasmonitoralarmsetpoints shallbeused~Sincemonitorsrespondtonoblegasesonly,monitoralarmpointsaresettoalarmpriorto=exceeding thecorresponding totalbodydoserates.3~1~2Theskindoseratelimitisnotusedinsetpointcalculations becauseitisneverlimiting.
StackMonitorSetpoints Thedetailedmethodsforestablishing setpoints shallbecontained inthestationprocedures.
Thesemethodsshallapplythefollowing generalcriteria:
(1)Rationale forStackmonitorsettingsisbasedonthegeneralequation:
releaserateactual',=releaseratemax.allowable corresp.doserate,actualcorresp.doserate,max.allowable EiQi(%+(SF)
W(~/Q).)500mrem/yr004152LL10Unit1ODCMRevision13December1993
<<4P4~4'i).>
3.1.2StackMonitorSetpoints (Cont'd)Where:releaae"rate foreachisotopei,pCi/sec.V)gammawholebodydosefactorinunitsofmrem/yrperpCi/sec.(SeeTable3-2).(Q)=instantaneous releaseratelimitpCi/sec.(2)Toensurethat10CFR20andTechnical Specifications doseratelimitsarenotexceeded, theHiHialarmsonthestackmonitorsshallbesetlowerthanorequalto(0.9)(Q).Hialarmsshallbesetlowerthanorequalto(0.5)(Q)(3)(4)Basedontheaboveconservatism, thedosecontribution fromJAFandNMP-2canusuallybeignored.DuringEmergency Classifications atJAForNMP-2duetoairborneeffluent, orafteremergency condenser ventreleasesofsignificant proportions, the500mrem/yrvaluemaybereducedaccordingly.
ToconvertmonitorgrosscountratestopCi/secreleaserates,thefollowing generalformulashallbeapplied:(C-B)K,~Q~pCi/sec,releaserateWhere:C~Bmonitorgrosscountrateincpsorcpmmonitorbackground countratestackmonitorefficiency factorwithunitsofpCi/sec-cps orpCi/sec-cpm (5)MonitorK,factorsshallbedetermined usingthegeneralformula:~LQl/(C"B)Where:Q,~individual radionuclide stackeffluentreleaserateasdetermined byisotopicanalysis.
K,factorsmoreconservative thanthosecalculated bytheabovemethodology maybeassumed.Alternatively, whenstackreleaseratesarenearthelowerlimitofdetection, thefollowing generalformulamaybeusedtocalculate k,:1/K,=E~ZFEY3.7E4daffSec.-pCiWhere:stackflowincc/sec.efficiency inunitsofcpm-cc/pCi orcps-cc/pCi (cpm~countsperminute;cps~countspersecond).E~cpm-cc/bps orcps-cc/@ps.
.Fromenergycalibration curveproducedduringNZSTtraceable primarygascalibration ortransfersourcecalibration (bps=betapersecond;Yps=gammaspersecond).004152LLUnit1ODCMRevision13December1993 IRpa~epeal 3'.2StackMonitorSetpoints (Cont'd)Y~b/d(betas/disintegration) ory/d(gammas/disintegration).
P,~Activityfractionofnuclideiinthemixture.i=nuclidecounter.k=discreteenergybetaorgammaemitterpernuclidecounter.s=seconds.Thismonitorcalibration methodassumesanoblegasdistribution typicalofarecoilreleasemechanism.
Toensurethatthecalculated efficiency isconservative, betaorgammaemissions whoseenergyisabovetherangeofcalibration ofthedetectorarenotincludedinthecalculation.
3.1~3Recombiner Discharge (OffGas)MonitorSetpoints (1)TheHi-Hialarmpointsshallactivatewithrecombiner discharge ratesequaltoorlessthan500,000pCi/sec.Thisalarmpointmaybesetequaltoorlessthan1Ci/secforaperiodoftimenottoexceed60daysprovidedtheoffgastreatment systemisinoperation.
(2)'TheHialarmpointsshallactivatewithrecombiner discharge ratesequaltoorlessthan500,000pCi/sec.According totheUnit1Technical Specifications, Note(C)toTable4.6.14-2, thechannelfunctional testofthecondenser airejectorradioactivity monitorshalldemonstrate thatautomatic isolation ofthispathwayoccursifeitherofthefollowing conditions exist:i)Instruments indicatetwochannelsabovetheHi-Hialarmsetpoint, ii)Instruments indicateonechannelaboveHi-Hialarmsetpointandonechanneldownscale.
Thisautomatic isolation functionistestedonceperoperating cycleinaccordance withstationprocedures.
(3)ToconvertmonitormR/hrreadingstopCi/sec,theformulabelowshallbeapplied:(R)(KR)=QgpCi/secrecombiner discharge releaserateWhere:R=mR/hrmonitorindicator.
K=efficiency factorinunitsofpCi/sec/mR/hr determined priortosettingmonitoralarmpoints.(4)MonitorKRfactorsshallbedetermined usingthegeneralfoimula:KR=EiQ(/RWhere:Q,~individual radionuclide recombiner discharge releaserateasdetermined byisotopicanalysisandflowratemonitor.Kfactorsmoreconservative thanthosecalculated bytheabovemethodology maybeassumed.004152LL12Unit1ODCMRevision13December1993 I~I5 3Recombiner Di.scharge (OffGas)MonitorSetpoints (Cont'd)(5)Thesetpoints chosenprovideassurance thatthetotalbodyexposuretoanindivi.dual attheexclusion areaboundarywillnotexceadaverysmallfractionofthelimitsof10CFRPart100-intheeventthiseffluentisinadvertently discharged directlytotheenvironment withouttreatment (therebyimplementing therequirements ofGeneralDesignCri.teria 60and64ofAppendixAto10CFRPart50).Additionally, thesesetpoints servetolimitbui.ldupoffissionproductactivitywithinthestationsystemswhichwouldresultifhighfuelleakageweretobepermitted overextendedperiods.31'Emergency Condenser VentMoni.torSetpoi.nt Themonitorsetpointwasestablished bycalculation
("Emergency Condenser VentMonitorAlarmSetpoint",
January13,1986,NMPCFileCodef16199).Assumingahypothetical casewith(1)reactorwateriodineconcentrations higherthantheTechnical Specificati.on Limit@(2)reactorwaternoblegasconcentrations higherthanwouldbeexpectedatTechnical Specification iodinelevels,and(3)leakageofreactorsteamintotheemergency condenser shellat300%ofratedflow(or1.3E6lbs/hr),thecalculation predi.cts anemergency condenser ventmonitorresponseof20mR/hr.Suchareleasewouldresultinlessthan10CFR20doseratevaluesatthesiteboundaryandbeyondfortypi.calemergency condenser cooldownperiods.Sincea20mR/hrmonitorresponsecan,intheory,beachievable onlywhenreactorwateriodi.nesarehigherthanpermitted byTechnical Specifications, aconservative monitorsetpointof5mr/hrhasbeenadopted.3~1~53.1~5.1Discussion StackEffluentMonitoring SystemDescripti.on TheNMP-1StackEffluentMonitoring Systemconsistsoftwosubsystems; theRadioactive GaseousEffluentMonitoring System(RAGEMS)andtheoldGeneralElectricStackMonitoring System(OGESMS).
Duringnormaloperation, theOGESMSshallbeusedtomonitorstationnoblegaseffluents andcollectparticulates andiodinesamplesincompliance withTechnical Specification requirements.
TheRAGEMSisdesignedtobepromptlyactivated fromtheMainControlRoomforusei.nhighrangemonitoring duringaccidentsituations incompliance withNUREG0737criteria.
Overallsystemschematic fortheOGESMSandRAGEMSareshownonFigureB-9.Asimplified viewofRAGEMSShowi.ngUnit0,1,2,3and4canbefoundonFigureB-S.TheRAGEMScanprovidecontinuous accidentmonitoring andon-lineisotopicanalysisofNMP-1stackeffluentnoblegasesatLowerLevelsofDetection lessthanTechnical Specification Table4.6.15-2limits.Activities aslowas5.0E-Sandashighas2.0ESpCi/ccfornoblegasesaredetectable bythesystem.3~1~5+2StackSampleFlowPath-RAGEMSTheeffluentsampleisobtainedinsidethestackatelevation 530'singanisokinetic probewithfourorifices.
Thesamplelinethenbendsradiallyoutandbackintothestack;descendsdownthestackandoutofthestackatapproximately elevation 257';runshorizontally (enclosed inheattracing)some270'longtheoffgastunnel;andenterstheRAGEMSlocatedontheTurbineBuilding250'Dilution cabinet-Unit0)andOffGasBuilding247'Particulate, Iodine,NobleGasstations-Units1-3).004152LL13Unit1ODCMRevision13December1993 lgtAt 3.1.5.2StackSampleFlowPath-RAGEMS(Cont'd)IntheDi.lution cabinetoftheRAGEMS,thestackgasmaybedilutedduringaccidentsituations approximately 100-200X(firststage)or10000-40000"X (firstandsecondstage)with,gaseous nitrogensuppliedfromanon-siteliquidnitrogenstoragetank(seeFigureB-9).FromUnit0,thesamplegasentersUnit1-3ofRAGEMSandflowsthruin-lineparticulate andiodinecartridges andthenthrueithera6liter(lowrange)or30cc(hi.ghrange)noble.gaschamber.ThesamplegasnextflowsbackthruUnit0andtheoffgastunnel;andbackintothestack.3~1~5.3StackSampleFlowPath-OGESMSTheOGESMSsamplei.sobtainedfromthesamestacksampleprobeastheRAGEMS.Fromtheexi.tofthestackatelevation 257',thesamplelinerunseastapproximately 20'ndthenvertically approximately 8'otheOGESMSskid.IntheOGESMS,sampleflowsthruaparticulate/iodi.ne cartridge housingandfournoblegasscintillation detectors (i.e.,07and08lowrangebetadetectors andRN-03AandRN-03Bhighrangegammadetectors)
.FromOGESMS,thestacksampleflowsbackintothestackatapproximately elevation 257'.AllOGESMSdetectoroutputsaremonitored andrecordedremotelyintheMainControlRoom.Alarmingcapabilities areprovidedtoalertOperators ofhighreleaserateconditions priortoexceeding Technical Specification 3.6.15.b(1)adoseratelimits.Stackparticulate andiodinesamplesareretrieved manuallyfromtheOGESMSandanalyzedinthelaboratory usinggammaspectroscopy atfrequenciea andLLDsspecified inTable4.6.15-2oftheTechnical Speci.ficationa.
3'.5.4~~~SamplingFrequency/Sample AnalysisRegardless ofwhichstackmonitoring subsystem isutilized, radioactive gaseouswastesshallbesampledandanalyzedinaccordance withthesamplingandanalysisprogramspecified inTechnical Specification Table4.6.15-2.
Particulate samplesaresavedandanalyzedforprincipal gammaemitters, grossalpha,Fe-55,Sr-89,Sr-90atmonthlyintervals minimally.
Thelatterthreeanalysesareperformed off-sitefromacomposite sample.Sampleanalysisfrequencies areincreased
,duringelevatedreleaserateconditions, following startup,shutdownandincon)unction witheachdrywellpurge.Consistent withTechnical Specification Table4.6.15-2, stackeffluenttri.tiumissampledmonthly,duringeachdrywellpurge,andweeklywhenfuelisoffloadeduntilstablereleaseratesaredemonstrated.
Samplesareanalyzedoff-site.
3,1~5.5Linelosscorrection factorsareappliedtoallparticulate andiodine~results.Correction factorsof2.0and1.5areusedfordataobtainedfromRAGEMSandOGESMSrespectively.
Thesecorrection factorsarebasedonempirical datafromsamplingconducted atNMP-1in1985(memofromJ.BlasiaktoRAGEMSFile,1/6/86,"StackSampleRepreaentativeness Study:RAGEMSversusIn-StackAuxiliary ProbeSamples").I-133Estimates Monthly,thestackeffluentshallbesampledforiodinesovera24hourperiodandtheI-135/I-131 andtheI-133/I-131 ratioscalculated.
Theseratiosshallbeusedtocalculate I-133,I-135releaseforlongeracquisition samplescollected duringthemonth.004152LLUnit1ODCMRevision13December1993 p464.<<I"<<Il<<'t<<1I'44 3~1~5~5F1.5.6I-133Estimates (Cont'd)Additionally, theI-135/I-131 andI-133/I-131 ratiosshouldalsobedetermined afterasignificant changeintheratioissuspected (eg,plantstadiachangesfromprolonged shutdowntopoweroperation orfueldamagehasoccurred).
GaseousRadwasteTreatment SystemOperation Technical Specification 3.6.16.brequiresthatthegaseousradwastetreatment systemshallbeoperableandshallbeusedtoreduceradioactive materials ingaseouswastepriortotheirdischarge asnecessary tomeettherequirements ofTechnical Specification 3.6.15.b.
ToensureTechnical Specification 3.6.15.blimitsarenotexceeded, andtoconfirmproperradwastetreatment systemoperation asapplicable, cumulative dosecontributions forthecurrentcalendarquarterandcurrentcalendaryearshallbedetermined monthlyinaccordance withsection3.2ofthismanual.Initialdosecalculations shallincorporate thefollowing assumptions withregardtoreleaseratesofnon-gamma emittingradionuclides subsequently analyzedoff-site:
a)H-3releaserateb)Sr-89releaseratec)Sr-90releaserated)Fe-55'release"rate 54pCi/sec54xCs-137releaserate50.5xCs-137releaserateS1xCo-60releaserateAssumedreleaseratesrepresent conservative estimates derivedfromanalysisofhistorical datafromeffluentreleasesandprocesswastestreams(SeeNMP34023,C.WaretoJ.Blasiak,April29,1988,"DoseEstimates forBeta-Emitting Isotopes"
).Following receiptofoff-siteH-3iSr-89,Sr-90,Fe-55analysisinformation, doseestimates shallberevisedusingactualradionuclide concentrations.
DoseandDoseRateDeterminations Inaccordance withspecifications 4.6.15.b.(1),
4.6.15.b.(2),
and4.6.15.b.(3) doseanddoseratedeterminations willbemademonthlytodetermine:
(1)TotalbodydoseratesandgammaairdosesatthemaximumX/Qlandsectorsiteboundaryinterface andbeyond.'(2)SkindoseratesandbetaairdosesatthemaximumX/Qlandsectorsiteboundaryinterface andbeyond.(3)ThecriticalorgandoseanddoserateatthemaximumX/Qlandsectorsiteboundaryinterface andatacriticalreceptorlocationbeyondthesiteboundary.
Averagemeteorological data(ie,maximumfiveyearannualaverageX/QandD/Qvaluesinthecaseofelevatedreleasesor1985annualaverageX/QandD/Qvalues,inthecaseofgroundlevelreleases) shallbeutilizedfordoseanddoseratecalculations.
Whereaveragemeteorological dataisassumed,doseanddoseratesduetonoblegasesatlocations beyondthesiteboundarywillbelowerthanequivalent siteboundarydoseanddoserates.Therefore, undertheseconditions, calculations ofnoblegasdoseanddoseratesbeyondthemaximumX/Qlandsectorsiteboundarylocations canbeneglected.
Thefrequency ofdoseratecalculations willbeupgradedwhenelevatedreleaserateconditions specified insubsequent sections3.2.1.1and3.2.1.2arerealized.
004152LL15Unit1ODOMRevision13December1993 4I~I8~4tI 3~2DoseandDoseRateDeterminations (Cont'd)Emergency condenser ventreleasecontributions tothemonthlydoseanddoseratedeterminations willbeconsidered onlywhentheemergency condenser returnisolation valveshavebeenopenedforreactorcooldownorifEmergency Condenser tubeleaksdevelopwithorwithoutthesystem'sreturnisolation valveopened.Withouttubeleakageoropeningofthereturnisolation valves,releasesfromthissystemarenegligible andthecorresponding dosecontributions donothavetobeincluded.
Whenreleasesfromtheemergency condenser haveoccurred, doserateanddosedeterminations shallbeperformed usingmethodology in3.2.1and3.2.2.Furthermore, environmental samplingmayalsobeinitiated torefineanyactualcontribution todoses.SeeSection3.4.Criticalorgandosesanddoseratesmaybeconservatively calculated byassumingtheexistence ofamaximumindividual.
Thisindividual isacomposite ofthehighestdosefactorofeachagegroup,foreachorganandtotalbody,andeachnuclide.Itisassumedthatallpathwaysareapplicable andthehighestX/gand/orD/QvalueforactualpathwaysasnotedinTable3-1areineffect.Themaximumindividual's doseisequaltothesamedosethatpersonwouldreceiveiftheyweresimultaneously subjected tothehighestpathwaydoseateachcritical-receptor identified foreachpathway.Thepathwaysincludegrass-(cow andgoat)-milk, grass-cow-meat, vegetation, groundplaneandinhalation.
TocomplywithTechnical Specifications wewillcalculate themaximumindividual doserateatthesiteboundaryandbeyondatthecriticalresidence.
~~3.2~1Ifdoseordoseratescalculated, usingtheassumptions notedabove,reachTechnical Specification limits,actualpathwayswillbeevaluated, anddose/dose ratesshallbecalculated atseparatecriticalreceptorlocations andcomparedwithapplicable limits.DoseRateDoserateswillbecalculated monthly,ataminimum,orwhentheHi-Histackmonitoralarmsetpointisreached,todemonstrate thatdoseratesresulting fromthereleaseofnoblegases,tritium,iodines,andparticulates withhalflivesgreaterthan8daysarewithinthelimitsspecified in10CFR.20.
Theselimitsare:NobleGasesWholeBodyDoseRate:500mrem/yrSkinDoseRate:3000mrem/yrTritiumIodineeandParticulates OrganDoseRate:'500mrem/yr3.2.F1NobleGasesThefollowing noblegasdoserateequationincludesthecontribution fromthestack(s)elevatedreleaseandtheemergency condenser vent(v)groundlevelreleasewhenapplicable (Seesection3.2).Toensurethatthesitenoblegasdoseratelimitsarenotexceeded, thefollowing procedural actionsaretakeniftheoffsitedoseratesfromUnit1exceed10%ofthelimits:1)NotifytheUnit1SSS(StationShiftSupervisor) andUnit1Supervisor Chemistry.
004152LL16Unit1ODOMRevision13December1993
3.2.1.1NobleGases(Cont'd)2)NotifytheUnit2SSSandUnit2Supervisor Chemistry andrequesttheUnit2contribution tooffsitedose.3)NotifytheSSSoftheJamesA.Fitzpatrick NuclearPlantandrequesttheFitzpatrick contribution tooffsitedose.4)Increasethefrequency ofperforming noblegasdosecalculations, ifnecessary, toensureSite(NineMilePointUnits1and2andFitzpatrick) limitsarenotexceeded.
Additionally, alarmsetpoints aresetat50%ofthedoseratelimittoensurethatsitelimitsarenotexceeded.
Thisalarmsetpointisad)ustedifthenoblegasdoseratefromUnit1isgreaterthan10%ofthelimit.Fortotalbodydoserates(mrem/sec):
DR,(mrem/sec)
=3.17E-8E,[(V,
+(SF)g(X/Q),)Q
+(SF)g(X/Q)Q)
Forskindoserates(mrem/sec):
DR+>(mrem/sec)=
3.17E-SE,[(L,(X/Q),
+1.11(SF)(B,'
g(X/Q),))Q.
+..~(L)+1~11(SF)g)(X/Q)Q~]
Where:DRDR+pV,totalbodygammadoserate(mrem/sec).
skindoseratefromgammaandbetaradiation (mrem/sec)
.theconstantaccounting forthegammawholebodydoseratefromstackradiation foranelevatedfiniteplumereleasesforeachidentified noblegasnuclide,i.ListedonTable3-2inmrem/yrperpCi/sec.theconstantaccounting forthegammawholebodydoseratefromimmersion inthesemi-infinite cloudforeachidentified noblepasnuclide,i.ListedinTable3-3inmrem/yrperpCi/m(fromReg.Guide1.109)SFX/Qthereleaserateofisotopeifromthestack(s)orvent(v);(pCi/sec) structural shielding factor.therelativeplumeconcentration (inunitsofsec/m~)atthelandsectorsiteboundaryorbeyond.Averagemeteorological data(Table3-1)isused."Elevated" X/Qvaluesareusedforstackreleases(s=stack)g"Ground"X/QvaluesareusedforEmergency Condenser Ventreleases(v=vent).L)theconstantaccounting forthebetaskindoseratefromimmersion inthesemi-infinite cloudforeachidentified noblegasnuclide,i.ListedinTable3-3inmrem/yrperpCi/m~(fromReg.Guide1.109)B,theconstantaccounting fortheairgammaradiation fromtheelevatedFiniteplumeresulting fromstackreleasesforeachidentified noblegasnuclide,i.ListedinTable3-2inmrad/yrperpCi/sec.004152LL17Unit1ODCMRevision13December1993 Jtq).}
3.2.1.1NobleOases(Cont'd)theconstantaccounting forthegammaairdoseratefromimmersion inthesemi-infinite cloudforeachidentified "noblegasnuclide,i.Listedin,Table3-3inmrem/yrperpCi/m'from Reg.Guide1.109)SeeAppendixBforderivation ofB,andV<.13.2.1.2Tritium,ZodinesandParticulates Toensurethatthe1500mrem/year sitedoseratelimitisnotexceeded, offsitedoseratesfortritium,iodineandparticulates withhalflivesgreaterthan8daysshallbecalculated monthlyandwhenreleaserates(Q)exceed0.34pCi/secusingthefollowing equation.
D~(mrem/sec)
=3.17E-SZj[Z,
~[W,Q+WQ])Where:WjTotaldoseratetoeachorgankofanindividual inagegroupa(mrem/sec).
dispersion parameter eitherX/Q(sec/m')orD/Q(1/m~)depending onpathwayandreceptorlocationassumed.Averagemeteorological dataisused(Table3-1)."Elevated" Wjvaluesareusedforstackreleases(s~stack);"Ground"W>valuesareusedforEmergency Condenser Ventreleases(v=vent).thereleaserateofisotopei,fromthestack(s)orvent(v);(pCi/sec).
thedosefactorforeachisotopei,pathwayj,agegroupa,andorgank(Table3-4,through3-22'-mrem/yrperpCi/secforallpathwaysexceptinhalation, mrem/yrperpCi/m'.TheRvaluescontained inTables3-4through3-22werecalculated usingthemethodology definedinNUREG-0133 andparameters fromRegulatory Guide1.109,Revision1;aspresented inAppendixC.3.17E-S~theinverseofthenumberofsecondsinayear.Whenthereleaserateexceeds0.34pCi/sec,thedoserateassessment shallalsoincludeJAFandNMP-2contribution.
Theuseofthe0.34pCi/secreleaseratethreshold toperformdoseratecalculations isjustified asfollows:(a)The1500mrem/yrorgandoseratelimitcorresponds toaminimumreleaseratelimitof0.34pCi/seccalculated usingtheequation:
1500~(Q,pCi/sec)x(RWj)Where:1500(RgWj)siteboundarydoseratelimit(mrem/year).
themaximumcurie-to-dose conversion factorequalto4.45E3mrem-sec/pCi-yr forSr-90,childboneatthecriticalresidence receptorlocationbeyondthesiteboundary.
004152LL18Unit1ODCMRevision13December1993 1Ci>>y 3.2.1.2Tritium,ZodinesandParticulates (Cont'd)(b)Theuseof0.34pCi/secreleaseratethreshold andthe4.45E3mrem-sec/pCi-yr curie-to-dose conversion factorisconservative sincecurie-to-dose conversion factorsforotherisotopeslikelytobepresentaresignificantly lower.Znaddition, iftheorgandoserateexceeds5%oftheannuallimit,thefollowing procedural actionswillbetaken:1)NotifytheUnit1SSS(StationShiftSupervisor) andUnit1Supervisor Chemistry.
2)NotifytheUnit2SSSandUnit2Supervisor Chemistry andrequesttheUnit2contribution tooffsitedose.3)NotifytheSSSoftheJamesA.Fitzpatrick contribution tooffsitedose.4)Zncreasethefrequency ofperforming dosecalculations ifnecessary toensuresite(NineMilePointUnits1and2andFitzpatrick) limitsarenotexceeded.
3~2~2DoseCalculations willbeperformed monthlyataminimum,todemonstrate thatdosesresulting fromthereleaseofnoblegases,tritium,iodines,andparticulates withhalflivesgreaterthan8daysarewithinthelimitsspecified in10CFR50,AppendixZ.Theselimitsare:NobleGases5mRgamma/calendar quarter10mradbeta/calendar quarter10mRgamma/calendar year20mradbeta/calendar yearTritiumZodinesandParticulates 7.5mremtoanyorgan/calendar quarter15mremtoanyorgan/calendar year3.2.2.1NobleGasAirDoseThefollowing NobleGasairdoseequationincludescontributions fromthestack(s)elevatedreleaseandtheemergency condenser vent(v)groundlevelreleasewhenapplicable (seesection3.2):Forgammaradiation'mrad):
Dy(mrad)=3.17E-8Z<(M;(X/Q)Q+(Bi
+g(X/Q),)Q]
~tForbetaradiation (mrad):Du(mrad)=3~17E-8EiN~[(X/Q)>>
Q~+(X/Q),Q,)~Where:Dgammaairdose(mrad).Dpbetaairdose(mrad).NotethattheunitsforthegammaairdoseareinmradcomparedtotheunitsforthelimitsareinmR.TheNRCrecognizes that1mR=1mrad,forgammaradiation.
004152LL19Unit1ODCMRevision13December1993 1t~J+pC'1~')tle 3.2.2.1NobleGasAirDose(Cont'd)B)N)theconstantaccounting fortheairgammaradiation fromtheelevatedfiniteplumeresulting fromstackreleasesforeachidentified.
noblegasnuclide,i.--ListedinTable3-2inmrad/yrperpCi/sec.Theconstantaccounting fortheairbetadosefromimmersion inthesemi.-infinite cloudforeachidentified noblegasnuclide,i.ListedonTable3-3inmrad/yrperpCi/m'from Reg.Guide1.109).QgQ=thereleaserateofisotopei,fromthestack(s)orvent(v)i(pCi/sec).
3.17E-8theinverseofthenumberofsecondsinayear.theconstantaccounting fortheairgammadosefromimmersion inthesemi-infinite cloudforeachidentified noblegasnuclide,i.ListedonTable3-3inmrad/yrperpCi/m~(fromReg.Guide1.109).totaltimeduringreleaseperiodisec.342Allotherparameters areasdefinedinsection3.'2.1.1.
Tritium,ZodinesandParticulates Toensurethatthe15mrem/yrfacilitydoselimitisnotexceeded, offsitedosesfortritium,iodines,andparticulates withhalflivesgreaterthan8daysshallbecalculated monthlyusingthefollowing equations D~(mrem)=3.17E-SZ>[Z,
~[W,Q+WQ])~tWhere:WJQi'otaldosetoeachorgankofanindividual inagegroupa(mrem).dispersion parameter eitherX/Q(sec/m')orD/Q(1/m~)depending onpathwayandreceptorlocationassumed.Averagemeteorological dataisused(Table3-1)."Elevated" W>valuesareusedforstackreleases(s=stack)p"Ground"W>valuesareusedforEmergency Condenser Ventreleases(v~vent).thereleaserateofisotopeifromstack(s)orvent(v)i(pCi/sec).
3.17E-Sthedosefactorforeachisotopei,pathwayj,agegroupa,andorgank(Tables3-4,through3-22;m~-mrem/yr perpCi/sec).
Rvaluescontained inTables3-4through3-22werecalculated usingthemethodology definedinNUREG-0133 andparameters fromRegulatory Guide1.109,Revision1;aspresented inAppendixC.theinverseofthenumberofsecondsinayear.totaltimeduringthereleaseperiod,sec.004152LL20Unit1ODCMRevision13December1993 4~a4Jjan(\ttI~RIIwve 3.2.2.3Accumulating DosesDoseswillbecalculated monthly,ataminimum,forgammaair,betaair,andthecriticalorganforeachagegroup.Doseestimates.
will,also"becalculated monthlypriortoreceiptofanyoffsite-analysisdatai.e.,strontium, tritium,andiron-55.Resultswillbesummedforeachcalendarquarterandyear.Thecriticaldosesarebasedonthefollowing!
3~3noblegasplumeairdose-directradiation fromgroundplanedeposition inhalation dosecowmilkingestion dose-goatmilkingestion dosecowmeatingestion dose-vegetation (foodcrops)ingestion doseThequarterly andannualresultsshallbecomparedtothelimitslistedinparagraph 3.2.2.Ifthelimitsareexceeded, specialreports,asrequiredbySection6.9.3oftheTechnical Specification, shallbesubmitted.
CriticalReceptors Inaccordance withtheprovisions of10CFR20and10CFR50,AppendixI,thecriticalreceptors havebeenidentified andarecontained inTable3-1.Forelevatednoblegasreleasesthecriticalreceptoristhesiteboundary.
When1985averageannualX/Qvaluesareusedforgroundlevelnoblegasreleases, thecriticalreceptoristhemaximumX/Qlandsectorsiteboundaryinterface.
Fortritium,iodines,andparticulates withhalflivesgreaterthaneightdays,thecritical'athways aregrass-(cow andgoat)-milk, grass-cow meat,vegetation, inhalation anddirectradiation (groundplane)asaresultofgrounddeposition.
Thegrass-(cow andgoat)-milk, andgrass-cow-meat pathwayswillbebasedonthegreatestD/Qlocation.
Thislocationhasbeendetermined inconjunction.
withthelandusecensus(technical specification 3.6.22)andissubjecttochange.Thevegetation (foodcrop)pathwayisbasedonthegreatestD/Qgardenlocationfromwhichsamplesaretaken.Thislocationmayalsobemodifiedasaresultofvegetation samplingsurveys.Theinhalation andgroundplanedosepathwayswillbecalculated atthecriticalresidence.
BecausetheTechnical Specifications statetocalculate "atthesiteboundaryandbeyond",thedosesand/ordoseratesmustbecalculated foramaximumindividual whoisexposedtoallpathwaysatthesiteboundaryandatthecriticalresidence.
Themaximumindividual isacomposite ofthehighestdosefactorofeachagegroup,foreachorganandtotalbody,andeachnuclide.Sincethecriticalresidence locationhasthegreatestoccupancy time,theresultant doseattheresidence including allpathwaysislimiting.
However,duetotheTechnical Specification wording,theinhalation andgroundplanedoseatthesiteboundaryalongwithallotherpathways, willbecalculated assumingacontinuous occupancy time.004152LL21Unit1ODCMRevision13December1993 4~'Ihf14'4CE'rgyes4V 3'CriticalReceptors (Cont'd)Inlieuofcorrecting landsiteboundarygroundplaneandinhalation dosefactorsforoccupancy time,aTechnical Specificat3;on changewillbe.submitted tochangetherequirement fromcalculating "atthesiteboundaryandbeyond"to"atthesiteboundaryorbeyond".Unit1willthencalculate atthecriticalresidence sincethisshouldbethelimitingdose.Untilthischangeiseffective, thedoseand/ordoseratecalculations fortritium,iodines,andparticulates withhalflivesgreaterthan8dayswillconservatively assumethatthegroundplaneandinhalation pathwaycriticalreceptors areatthesiteboundary, i.e.,X/QandD/Q,respectively, arecalculated atthesiteboundary.
3.4Refinement ofOffsiteDosesResulting fromEmergency Condenser VentReleasesThedosesresulting fromtheoperation oftheemergency condensers andcalculated inaccordance with3.2.2mayberefinedusingdatafromactualenvironmental samples.Grounddeposition sampleswillbeobtainedfromanareaorareasofmaximumprojected deposition.
Theseareasareanticipated tobeatornearthesiteboundaryandnearprojected plumecenterline.
Usingthemethodology foundinRegulatory Guide1.109,thedosewillbecalculated tothemaximumexposedindividual.
Thisdosewillthenbecomparedtothedosecalculated inaccordance with3.2.2.Thecomparison willresultinanadjustment factoroflessthanorgreaterthanonewhichwillbeusedtoadjusttheotherdosesfromotherpathways.
Otherenvironmental samplesmayalsobecollected andtheresultant calculated dosestothemaximumexposedindividual comparedtothedosecalculated per3.2.2.Otherenvironmental samplemediamayincludemilk,vegetation (suchasgardenbroadleaf vegetables),
etc.Theadjustment factorsfromthesepathwaysmaybeappliedtothedosescalculated per3.2.2onapathwaybypathwaybasisorseveralpathwayadjustment factorsmaybeaveragedandusedtoadjustcalculated doses.Dosescalculated.
fromactualenvironmental samplemediawillbebasedonthemethodology presented inRegulatory Guide1.109.Theregulatory guideequations maybeslightlymodifiedtoaccountforshortintervals oftime(lessthanoneyear)ormodifiedforsimplicity purposesbydeletingdecayfactors.Deletionofdecayfactorswouldyieldmoreconservative results.004152LL22Unit1ODCMRevision13December1993 I'Vsv'Ap.~'/iffeL'4a.~"g'lEPA'.LS~'Q""t'4'I~>
4~040CFR190REQUIREMENTS
,The"UraniumFuelCycle"isdefinedin40CFRPart190.02(b)as.follows:"Uraniumfuelcyclemeanstheoperations ofmillingofuraniumore,chemicalconversion ofuranium,isotopicenrichment ofuranium,fabrication ofuraniumfuel,generation ofelectricity byalight-water-cooled nuclearpowerplantusinguraniumfuel,andreprocessing ofspenturaniumfuel,totheextentthatthesedirectlysupporttheproduction ofelectrical powerforpublicuseutilizing nuclearenergy,butexcludesminingoperations, operations atwastedisposalsites,transportation ofanyradioactive materialinsupportoftheseoperations, andthereuseofrecovered non-uranium specialnuclearandby-product materials fromthecycle."Section3.6.15.doftheTechnical Specifications requiresthatwhenthecalculated dosesassociated withtheeffluentreleasesexceedtwicetheapplicable quarterorannuallimits,thelicenseeshallevaluatethecalendaryeardosesand,ifrequired, submitaSpecialReporttotheNRCandlimitsubsequent releasessuchthatthedosecommitment toarealindividual fromalluraniumfuelcyclesourcesislimitedto25mremtothetotalbodyoranyorgan(exceptthethyroid,whichislimitedto75mrem).Thisreportistodemonstrate thatradiation exposures toallrealindividuals fromalluraniumfuelcyclesources(including allliquidandgaseouseffluentpathwaysanddirectradiation) arelessthanthelimitsin40CFRPart190.Ifreleasesthatresultindosesexceeding the40CFR190limitshaveoccurred, thenavariancefromtheNRCtopermitsuchreleaseswillberequested andifpossible, actionwillbetakentoreducesubsequent releases.
ThereporttotheNRCshallcontain:1)Identification ofalluraniumfuelcyclefacilities oroperations within5milesofthenuclearpowerreactorunitsatthesitethatcontribute totheannualdoseofthemaximumexposedmemberofthepublic.2)Identification ofthemaximumexposedmemberofthepublicandadetermination ofthetotalannualdosetothispersonfromexistingpathwaysandsourcesofradioactive effluents anddirectradiation.
Thetotalbodyandorgandosesresulting fromradioactive materialinliquideffluents fromNineMilePointUnit1willbesummedwiththemaximumdosesresulting fromthereleasesofnoblegases,radioiodines, andparticulates fortheothercalendarquarters(asapplicable) andfromthecalendarquarterinwhichtwicethelimitwasexceeded.
Thedirectdosecomponents will'bedetermined byeithercalculation oractualmeasurement.
Actualmeasurements willutilizeenvironmental TLDdosimetry.
Calculated measurements willutilizeengineering calculations todetermine aprojected directdosecomponent.
Intheeventcalculations areused,themethodology willbedetailedasrequiredinSection6.9.1.eoftheTechnical Specifications.
004152LL23Unit1ODCMRevision13December1993 4L41J4L~-~Hw,Ai*~'t~>"eP1s4e.
4.0 40CFR190REQUIREMENTS
(Cont'd)ThedosesfromNineMilePointUnit1willbeaddedtothedosestothemaximumexposedindividual thatarecontributed fromotheruraniumfuelcycleoperations within5milesofthesite.Otheruraniumfuelcyclefacilities within5milesoftheSiteincludeNineMilePointNuclearStationUnit2andtheJamesA.Fitzpatrick NuclearPowerPlant.Dosesfromotherfacilities willbecalculated inaccordance witheachfacilities'DCM.
Forthepurposeofcalculating doses,theresultsoftheRadiological Environmental Monitoring Programmaybeincludedforproviding morerefinedestimates ofdosestoarealmaximumexposedindividual.
Estimated doses,ascalculated fromstationeffluents, maybereplacedbydosescalculated fromactualenvironmental sampleresults.Reportswillincludeallsignificant detailsofthedosedetermination ifradiological samplingandanalysesareusedtodetermine ifthedoselimitsof40CFR190areexceeded.
4'Evaluation ofDosesFromLiquidEffluents Fortheevaluation ofdosestorealmembersofthepublicfromliquideffluents, thefishconsumption andshoreline sedimentgrounddosewillbeconsidered.
Sincethedosesfromotheraquaticpathwaysareinsignificant, fishconsumption andshoreline sedimentaretheonlytwopathwaysthatwillbeconsidered.
Thedoseassociated withfishconsumption maybecalculated usingeffluentdataandRegulatory Guide1.109methodology orbycalculating adosetomanbasedonactualfishsampleanalysisdata.Becauseofthenatureofthereceptorlocationandtheextensive fishinginthearea,thecriticalindividual maybeateenageroranadult.Thedoseassociated withshoreline sedimentisbasedontheassumption thattheshoreline wouldbeutilizedasarecreational area.ThisdosemaybederivedfromliquideffluentdataandRegulatory Guide1.109methodology orfromactualshoreline sedimentsampleanalysisdata.Equations usedtoevaluatedosesfromactualfishandshoreline sedimentsamplesarebasedonRegulatory Guide1.109methodology.
Becauseofthesamplemediumtypeandthehalf-lives oftheradionuclides historically
- observed, thedecaycorrected portionsoftheequations aredeleted.Thisdoesnotreducetheconservatism ofthecalculated dosesbutincreases thesimplicity fromanevaluation pointofview.Table3-23presentstheparameters usedforcalculating dosesfromliquideffluents.
Thedosefromfishsamplemediaiscalculated as:Zl[Cu(U)(D~)f](1E+3)Where:Thetotalannualdosetoorganj,ofanindividual ofagegroupa,fromnuclidei,viafishpathwayp,inmremperyear.Theconcentration ofradionuclide iinfishsamplesinpCi/gram.
U~Theconsumption rateoffishinkg/yr.1E+3~Gramsperkilogram.
004152LL24Unit1ODCMRevision13December1993 I4e>'LHN,~g'4I~i+sSV~W+~I~.,
4.1Evaluation ofDosesFromLiquidEffluents (Cont'd)(D~J.~Theingestion dosefactorforagegroupa,nuclidei,fishpathwayp,andorganj,(Reg.Guide1.109,TableE-11)(mrem/pCi).
~Thefractional portionoftheyearoverwhichthedoseisapplicable.
Thedosefromshoreline sedimentsamplemediaiscalculated as:Z<[Cl,(U)(4E+4)(0.3)(D~)f)Where:Cg=Thetotalannualdosetoorganj,ofanindividual ofagegroupa,fromnuclidei,viathesedimentpathwayp,inmremperyear.~Theconcentration ofradionuclide iinshoreline sedimentinpCi/gram.
'U~Theusagefactor,(hr/yr)(Reg.Guide1.109).4E+4~Theproductoftheassumeddensityofshoreline sediment(40kilogrampersquaremetertoadepthof2.5cm)timesthenumberofgramsperkilogram.
0.3~Theshorewidthfactorforalake.D~~Thedosefactorforagegroupa,nuclidei,sedimentpathways,andorganj.(Rep.Guide1.109,TableE-6)(mrem/hr perpCi/m).~Thefractional portionoftheyearoverwhichthedoseisapplicable.
4'Evaluation ofDosesPromGaseousEffluents Fortheevaluation ofdosestorealmembersofthepublicfromgaseouseffluents, thepathwayscontained insection3.2.2.3oftheODCMwillbeconsidered.
Theseincludethedeposition, inhalation cowsmilk,goatsmilk,meat,andfoodproducts(vegetation).
However,anyupdatedfielddatamaybeutilizedthatconcernslocations ofrealindividuals, realtimemeteorological data,locationofcriticalreceptors, etc.Datafromthemostrecentcensusandsamplelocationsurveysshouldbeutilized.
Dosesmayalsobecalculated fromactualenvironmental samplemedia,asavailable.
Environmental samplemediadatasuchasTLD,airsample,milksampleandvegetable (foodcrop)sampledatamaybeutilizedinlieuofeffluentcalculational data.Dosestomemberofthepublicfromthepathwayscontained inODCMsection3.2.2.3asaresultofgaseouseffluents willbecalculated usingthedosefactorsofRegulatory Guide1.109orthemethodology oftheODCM,asapplicable.
Dosescalculated fromenvironmental samplemediawillbebasedonthemethodologies foundinRegulatory Guide1.109.004152LL25Unit1ODCMRevision13December1993 4AV~~~VI.VP~Vr,kt,VVLI4'V 4'Evaluation ofDosesPromDirectRadiation Thedosecontribution asaresultofdirectradiation shallbeconsidered whenevaluating whetherthedoselimitations of40CFR190havebeenexceeded.
4.4Directradiation dosesasaresultofthereactor,turbineandradwastebuildings andoutsideradioactive storage"tanks(asapplicable) maybeevaluated byengineering calculations orbyevaluating environmental TLDresultsatcriticalreceptorlocations, siteboundaryorotherspecialinterestlocations.
Fortheevaluation ofdirectradiation dosesutilizing environmental TLDs,thecriticalreceptorinquestion, suchasthecriticalresidence, etc.,willbecomparedtothecontrollocations.
Thecomparison involvesthedifference inenvironmental TLDresultsbetweenthereceptorlocationandtheaveragecontrollocationresult.DosestoMembersof.thePublicWithintheSiteBoundaryTheSemi.-Annual Radioactive EffluentReleaseReportshallincludeanassessment oftheradiation dosesfromradioactive liquidandgaseouseffluents tomembersofthepublicduetotheiractivities insidethesiteboundaryasdefinedbyFigure5.1-1ofthespecifications.
Amemberof.thepublic,asdefinedbytheTechnical Specifications, wouldberepresented byanindividual whovisitsthesites'nergy Centerforthepurposeofobserving theeducational displaysorforpicnicking andassociated activities.
Fishingisamajorrecreational activityintheareaandontheSiteasaresultofthesalmonoid andtroutpopulations inLakeOntario.Fishermen havebeenobservedfishingattheshoreline neartheEnergyCenterfromAprilthroughDecemberinallweatherconditions.
Thus,fishingisthema)oractivityperformed bymembersofthepublicwithinthesiteboundary.
Basedonthenatureofthefishermen andundocumented observations, itisconservatively assumedthatthemaximumexposedindividual spendsanaverageof8hoursperweekfishingfromtheshoreline atalocationbetweentheEnergyCenterandtheUnit1facility.
Thisestimateisconsidered conservative butnotnecessarily excessive andaccountsforoccasions whereindividuals mayfishmoreonweekendsoronafewdaysinMarchoftheyear.Thepathwaysconsidered fortheevaluation includetheinhalation pathway,thegrounddosepathwaywiththeresultant wholebodyandskindoseandthedirectradiation dosepathwaywiththeassociated wholebodydose.Thedirectradiation dosepathway,inactuality, includesseveralpathways.
Theseinclude:thedirectradiation gammadosetoanindividual fromanoverheadplume,agammasubmersion plumedose(asapplicable),
possibledirectradiation dosefromthefacilityandagioundplanedose(deposition).
Becausethelocationisincloseproximity tothesite,anybetaplumesubmersion doseisfelttobeinsignificant.
Otherpathways, suchastheingestion pathway,arenotapplicable sincethesedosesareincludedundercalculations fordosestomembersofthepublicoutsideofthesiteboundary.
Inaddition, pathwaysassociated withwaterrelatedrecreational activities, otherthanfishing,arenotapplicable here.Theseincludeswimming, boatingandwadingwhichareprohibited atthefacility.
004152LL26Unit1ODCMRevision13December1993
'~!tllP 4.4DosestoMembersofthePublicWithintheSiteBoundary(Cont'd)The.inhalatien pathwayisevaluated byidentifying theapplicable radionuclides (radioiodine, tritiumandparticulates) intheeffluentfortheappropriate timeperiod.Theradionuclide concentrations arethenmultiplied bytheappropriate X/Qvalue,inhalation dosefactor,airintakerate,andthefractional portionoftheyearinquestion.
Thus,theinhalation pathwayisevaluated usingthefollowing equationadaptedfromRegulatory Guide1.109.Table3-23presentsthereference fortheparameters usedinthefollowing equation.
NOTEtDpThefollowing equationisadaptedfromequations C-3andC-4ofRegulatory Guide1.109.SincemanyofthefactorsareinunitsofpCi/m',m~/sec.,etc.,andsincetheradionuclide decayexpressions havebeendeletedbecauseoftheshortdistancetothereceptorlocation, theequationpresented hereisnotidentical totheRegulatory Guideequations.
Zi[(Ci)F(X/Q)(DFA)-(BR)at]Where:.DpC,Themaximumdosefromallnuclidestotheorganjandagegroup(a)inmrem/yr.Theaverageconcentration inthestackreleaseofnuclideifortheperiodinpCi/m~.Unit1averagestackflowrateinm~/sec.X/QTheplumedispersion parameter foralocationapproximately 0.50mileswestofNMP-1;theplumedispersion parameter is8.9E-06(stack)andwasobtainedfromtheC.T.MainfiveyearaverageannualX/Qtables.Thestack(elevated)
X/Qisconservative whenbasedon0.50milesbecauseofthecloseproximity ofthestackandthereceptorlocation.
(DFA)U,(BR),Thedosefactorfornuclidei,organj,andagegroupainmremperpCi(Reg.Guide1.109,TableE-7)~Annualairintakeforindividuals inagegroupainm~peryear(obtained fromTableE-5ofRegulatory Guide1.109).Fractional portionoftheyearforwhichradionuclide iwasdetectedandforwhichadoseistobecalculated (inyears).004152LL27Unit1ODCMRevision13December1993 F<4 4.4DosestoMembersofthePublicWithintheSiteBoundary(Cont'd)Thegrounddosepathway(deposition) willbeevaluated byobtaining atleastonesoilorshoreline sedimentsampleintheareawherefishingoccurs.Thedosewillthenbecalculated usingthesampleresults,thetimeperiodinquestion, andthemethodology basedonRegulatory Guide1.109aspresented inSection4.1.Theresultant dosemaybeadjustedforabackground dosebysubtracting theapplicable off-sitecontrolsoilorshoreline sedimentsampleradionuclide activities.
Intheeventitisnotedthatfishingisnotperformed fromtheshoreline, butisinsteadperformed inthewater(i.e.,theuseofwaders),thenthegrounddosepathway(deposition) maynotbeevaluated.
1Thedirectradiation gammadosepathwayincludesanygammadosesfromanoverheadplume,potential submersion intheplume,possibledirectradiation fromthefacilityandgroundplanedose(deposition).
Thisgeneralpathwaywillbeevaluated byaverageenvironmental TLDreadings.
Atleasttwoenvironmental TLDswillbeutilizedatonelocationintheapproximate area~herefishingoccurs.TheTLDswillbeplacedinthefieldonapproximately thebeginning ofacalendarquarterandremovedonapproximately theendofthecalendarquarter.Forthepurposesofthisevaluation, TLDdatafromquarters2,3,and4willbeutilized.
TheaverageTLDreadingswillbeadjustedbytheaveragecontrolTLDreadings.
Thisisaccomplished bysubtracting theaveragequarterly controlTLDvaluefromtheaveragefishinglocationTLDvalue.Theapplicable quarterly controlTLDvalueswillbeutilizedafteradjusting fortheappropriate timeperiod(asapplicable).
IntheeventoflossortheftoftheTLDs,resultsfromaTLDorTLDsinanearbyareamaybeutilized.
004152LL28Unit1ODCMRevision13December1993
5~0ENVIRONMENTAL MONITORING PROGRAM5.1-SamplingStationsThecurrentsamplinglocations arespecified inTable5-1andFigures5.1-1,5.1-2.Themeteorological towerisshowninFigure5.1-1.ThelocationisshownasTLDlocation17.TheRadiological Environmental Monitoring ProgramisajointeffortbetweentheNiagaraMohawkPowerCorporation andtheNewYorkPowerAuthority, theownersandoperators oftheNineMilePointUnit1andtheJamesA.FitzPatrick NuclearPowerPlant,respectively.
Samplinglocations arechosenonthebasisofhistorical averagedispersion ordeposition parameters frombothunits.Theenvironmental samplinglocationcoordinates shownonTable5-1arebasedontheNMP-2reactorcenterline.
Theaveragedispersion anddeposition parameters havebeencalculated fora5yearperiod,1978through1982.Thesedispersion calculations areattachedasAppendixE.Thecalculated dispersion ordeposition parameters willbecomparedtotheresultsoftheannuallandusecensus.Ifitisdetermined thatamilksamplinglocationexistsatalocationthatyieldsasignificantly higher(e.g.50%)calculated D/Qrate,thenewmilksamplinglocationwillbeaddedtothemonitoring programwithin30days'fanewlocationisadded,theoldlocationthatyieldsthelowestcalculated D/QmaybedroppedfromtheprogramafterOctober31ofthatyear.Interlaboratory Comparison ProgramAnalysesshallbeperformed onsamplescontaining knownquantities ofradioactive materials thataresuppliedaspartofaCommission approvedorsponsored Interlaboratory Comparison Program,suchastheEPACrosscheck Program.Participation shallbeonlyforthosemedia,e.g.,air,milk,water,etc.,thatareincludedintheNineMilePointEnvironmental Monitoring Programandforwhichcrosscheck samplesareavailable.
AnattemptwillbemadetoobtainaQCsampletoprogramsampleratioof5%orbetter.Thesiteidentification symbolortheactualQualityControlsampleresultsshallbereportedintheAnnualRadiological Environmental Operating ReportsothattheCommission staffmayevaluatetheresults.SpecificsamplemediaforwhichEPACrossCheckProgramsamplesareavailable includethefollowings
-grossbetainairparticulate filters-gammaemittersinairparticulate filters-gammaemittersinmilk-gammaemittersinwater-tritiuminwater-I-131inwater004152LL29Unit1ODCMRevision13December1993 4"44'+I8'i.CE'1 5'Capabilities forThermoluni.nescent Dosimeters UsedforEnvi.ronmental Measurements Requireddetection capabi.lities forthermoluminescent dosimeters usedforenvironmental measurements requiredbyTable4.6.20-1, footnoteboftheTechnical Specifications arebasedonANSIStandardN545,section4.3.TLDsaredefinedasphosphors packagedforfielduse.Inregardtothedetection capabilities forthermolumi.nescent dosimeters, onlyonedetermination isrequiredtoevaluatetheabovecapabi.lities pertypeofTLD.Furthermore, theabovecapabilities maybedetermined bythevendorwhosuppliestheTLDs.Requireddetection capabilities arqasfollows:5.3.1Uniformity shallbedetermined bygivingTLDsfromthesamebatchanexposureequaltothatresulti.ng fromanexposurerateof10mR/hrduringthefieldcycle.Theresponses obtainedshallhavearelativestandarddeviation oflessthan7.5%.Atotalofatleast5TLDsshallbeevaluated.
5.3'Reproducibility shallbedetermined bygivingTLDsrepeatedexposures equaltothatresulting fromanexposurerateof10uR/hrduringthefieldcycle.Theaverageoftherelativestandarddeviations oftheresponses shallbelessthan3.0%.Atotalofatleast4TLDsshallbeevaluated.
5~3.3Dependence ofexposureinterpretation onthelengthofafieldcycleshallbeexami.ned byplacingTLDsforaperiodequaltoatleastafield.cycleandaperiodequaltohalfthesamefieldcyclei.nanareawheretheexposurerateisknowntobeconstant.
Thistestshallbeconducted underapproximate averagewintertemperatures andapproximate averagesummertemperatures.
Forthesetests,theratiooftheresponseobtainedinthefieldcycletotwicethatobtainedforhalfthefieldcycleshallnotbelessthan0.85.Atleast6TLDsshallbeevaluated.
5.3.4Energydependence shallbeevaluated bytheresponseofTLDstophotonsforseveralenergiesbetweenapproximately 30keVand3MeV.Theresponseshallnotdifferfromthatobtainedwiththecalibration sourcebymorethan25%forphotonswithenergi.es greaterthan80keVandshallnotbeenhancedbymorethanafactoroftwoforphotons-withenergieslessthan80keV.Atotalofatleast8TLDsshallbeevaluated.
5,3.55.3.6Thedirectional dependence oftheTLDresponseshallbedetermined bycomparing theresponseoftheTLDexposedintheroutineorientation withrespecttothecalibration sourcewiththeresponseobtainedfordifferent orientations.
Toaccomplish this,theTLDshallberotatedthroughatleasttwoperpendicular planes.Theresponseaveragedoveralldirections shallnotdifferfromtheresponseobtainedinthestandardcalibration positionbymorethan10%.Atotalofatleast4TLDsshallbeevaluated.
Lightdependence shallbedetermined byplacingTLDsinthefieldforaperiodequaltothefieldcycleunderthefourconditions foundinANSIN545,section4.3.6.Theresultsobtainedfortheunwrapped TLDsshallnotdifferfromthoseobtainedfortheTLDswrappedinaluminumfoilbymorethan10%.'Atotalofatleast4TLDsshallbeevaluated foreachofthefourconditions.
004152LL30Unit1ODCMRevision13December1993 Lal' Moisturedependence shallbedetermined byplacingTLDs(thatis,thephosphors packagedforfielduse)foraperiodequaltothefieldcycleinan~'reawheretheexposurerateisknowntobeconstant.
TheTLDsshallbeexposedundertwoconditions:
(1)packagedinathin,sealedplasticbag,and(2)packagedinathin,sealedplasticbagwithsufficient watertoyieldobservable moisturethroughout thefieldcycle.TheTLDorphosphor, asappropriate, shallbedriedbeforereadout.TheresponseoftheTLDexposedintheplasticbagcontaining watershallnotdifferfromthatexposedintheregularplasticbagbymorethan10%.Atotalofatleast4TLDsshallbeevaluated foreachcondition.
5',8Selfirradiation shallbedetermined byplacingTLDsforaperiodequaltothefieldcycleinanareawheretheexposurerateislessthan10uR/hrandtheexposureduringthefieldcycleisknown.Ifnecessary, corrections shallbeappliedforthedependence ofexposureinterpretation onthelengthofthefieldcycle(ANSIN545,section4.3.3).Theaverageexposureinferredfromtheresponses oftheTLDsshallnotdifferfromtheknownexposurebymorethananexposureequaltothatresulting fromanexposurerateof10uR/hrduringthefieldcycle.Atotalofatleast3TLDsshallbeevaluated.
004152LL31Unit1ODCMRevision13December1993 V4it TABLEl-lAverageEnergyPerDisintegration ISOTOPEAr-41Kr-83mKr-85Kr-85mKr-87Kr-88Kr-89Kr-90Xe-131MXe-133Xe-133mXe-135Xe-135mXe-137Xe-1381.2940.002480.00220.1590.7931.952.222.100.02010.04540.0420.2470.4320.1941.18~Ref(3)(2)(2)E~avdis<"0.4640.03710.2500.2531.320.3771.371.010.1430.1350.190.3170.0951.640.611~Ref(3)(2)(2)(2)(3)(4)ORNL-4923, Radioactive Atoms-SulementI,M.S.Martin,November1973.NEDO-12037, "SummaryofGammaandBetaEmittersandIntensity Data";M.E.Meek,R.S.Gilbert,January1970.(TheaverageenergywascomputedfromthemaximumenergyusingtheICRPIIequation, notthe1/3valueassumption usedinthisreference).
NCRPReportNo.58,"AHandbookofRadioactivity Measurements Procedures";
1978Theaverageenergyincludesconversion electrons.
004152LL32Unit1ODCMRevision13December1993 t41J<gs.h'I0 NUCLIDEBONELIVERMn56Mo99-2.40E-42.34E+1Na242.372.37I1313.03E+13.54E+1I1334.226.15Ni651.33E-31.51E-4I1321.58E-43.21E-4Cs1343.54E+26.60E+2Cs136Cs137Ba140Ce141Nb95La140Ce1444.05E+11.19E+24.91E+25.75E+21.50E+21.50E-17.21E-24.40E-23.85E-21.59E-21.18E-24.67E-32.791.14H32.90E-1Cr51Cu64-'.13E-1Mn54187E+1FE551.31E+18.44Fe59284E+14.96E+1Co583.34Co60102E+1Zn651.72E+1.5.91E+1Sr892.32E+3Sr901.74E+4Zr951.91E-14.66E-25.23E-24.232.261.96E+18.342.40E+12'3E+16.66E+14.43E+33.30E-24.15E-54.572.372.371.91E-l4.14287E+15'2E-22.07E>>43.50E+12.371.57E+11.17E+44.17E+11.806.85E-S1-12E+37.231.14E-41.50E-23.58E-46.67E+14.45E+14.07E+17.745.17E-39.18E-31.20E-31.57E-11.70E+24.75E+11.54E+23.57E-21.36E-21.14E-24.62E-1TABLE2-1AVALUES-LIQUID*RADWASTETANKINFANTmrem-mlhr-pCiTBODYTHYROIDKIDNEY2.90E-12.90E-1290E-11.29E-28.39E-31.83E-3LUNGGI-TRACT4.131.071.47E+12.37E+18.332.372.42E+15'OE+14.77E+12.17E+22.32E+12.18E-27.712'71.281.041.15E-22.60E-46.97E+11.799.71E+11.816.24E+11.809.23E-23.69E+12.27E+11.34E+15.48E+11.60E+22.90E-12.90E-11.63E-23.75E-12.326.86*Calculated inaccordance withNUREG0133,Section4.3.1;andRegulatory Guide1.109,Regulatory positionC,Section1.004152LL33Unit1ODCMRevision13December1993 44t7A"y~Wml NUCLIDEBONELIVERH34.39E-1Cr512.13E-22.13E>>2Cu642.51E-62.70Mn546.923.38E+3Fe559.21E+24.88E+2Fe591.30E+32.11E+3Co581.897.46E+1Co601.12E+23.28E+2Zn652.15E+45.73E+4Sr893.26E+41.10E-4Sr904.26E+5Zr951.701.33Mn561.65E-1Mo995.35E-39.57E+1Na241.52E+21.52E+2I1312.09E+22.10E+2I1333.39E+14.19E+1Ni65I132Cs1342.67E-12.51E-26.13E-31.13E-23.68E+56.04E+5Ce1445.001.81Cs1363.52E+49.67E+4Cs1375.15E+54.93E+5Ba1403.61E+23.96E-lCe1411.50E-11.07E-1Nb955.21E+22.03E+2La1401.50E-15.93E-21.401.637'6E-12.30E-12.51E-66.529.06E+26.921.51E+21.05E+31.342.24E+21.899.53E+21.341.897.48E+21.12E+21.12E+23.56E+43.853.61E+49.32E+21.10E-41.10E-41.08E+51.323.73E-21.231.382.00E-12.37E+15.35E-32.04E+21.52E+21.52E+21.52E+21.19E+26.94E+43.45E+21.59E+17.78E+36.98E+11.47E-25.18E-35.22E-11.72E-21.27E+53.54E+11.87E+56.26E+46.21E-15.15E+47.28E+4,5.37E+11.61E+52.11E+17.96E-21.82E-16.99E-26.34E-28.24E-21.45E+26.39E-11.91E+22.68E-2.1.03E-21.03E-26.06E-13.58E-11.16TABLE2-2A,VALUES-LIQUID*RADWASTETANKCHILDmrem<<mlhr-pCiTBODYTHYROIDKIDNEY4.39E-14.39E-l4.39E-1LUNGGI-TRACT4.39E-l4.39E-l1.427.31E+12.51E-61.27E+26.922.84E+32.76E+29.05E+16.12E+22.19E+31.894.26E+21.12E+21.31E+33.851.01E+41~10E-41.26E+31.235.74E+31.08E+22.39E+15.35E-37.91E+11.52E+21.52E+25.60E-2.1.38E-41.87E+11.69E+13.081.32E-26.72E+43.29E+37.68E+33.40E+35.78E+43.14E+32.68E-11.83E+26.34E-25.40E+16.39E-13.75E+51.03E-21.36E+33.58E-13.80E+2*Calculated inaccordance withNUREG0133,Section4.3.1;andRegulatory Guide1.109,Regulatory positionC,Section1.004152LL34Unit1ODCMRevision13December1993
\'5s6':
NUCLIDEBONELIVERH33.28E-1Cr511.02E-11.02E-1Cu641.20E-52.89Mn543.31E+14.34E+3Fe556.94E+24.92E+2Fe591.07E+32.49E+3Co589.039.82E+1Co605.36E+27.96E+2Zn652.10E+47.28E+4Sr892.44E+45.24E-4Sr904.66E+5Zr956.206.00Mn561.81E-1Mo992.56E-29.22E+1Na241.39E+21.39E+2I1311.55E+22.17E+2I1332.53E+14.29E+1Ni652.08E-12.66E-2I1324.90E-21.28E-2Cs1343.05E+57.18E+5Cs1362.98E+41.17E+5Cs1374.09E+55.44E+5Ba1402.35E+24.10E-1Ce1413.46E-13.32E-11.391.368.16E-13.84E-11.20E-57.328.87E+23.31E+11.32E+31.15E+29.64E+26.412.15E+29.036.419.031.12E+35.36E+25.36E+23.40E+41.84E+1466E+46.98E+25.24E-45.24E-41.15E+55.973.22E-25.906.042.29E-11.76E+12.56E-22.11E+21.39E+21.39E+21.39E+21.16E+26.31E+43.73E+21.31E+15.99E+37.52E+11.21E-24.60E-34.32E-12.02E-23.33E+51.69E+22.28E+57.88E+42.976.38E+41.90E+52.57E+21.85E+51.55E+13.81E-14.79E-13.07E-13.04E-13.17E-1TABLE2-3~VALUES-LIQUID~RADWASTETANKTEENmrem-mlhr-pCiTBODYTHYROIDKIDNEY3.28E-13.28E-1328E-1LUNGGI-TRACT3.28E-13.28E-11.942.16E+21.20E-52.24E+23.31E+18'86E+33.12E+22.13E+27.89E+25'7E+39.031.24E+35.36E+23.93E+31.84E+13.08E+45.24E-42.90E+35.901.31E+42.28E+21.19E+12.56E-21.65E+21.39E+21.39E+22.68E-14.30E+1660E-43.25E+11.445.59E-38.73E+49.10E+31.01E+49.44E+37.21E+47.99E+35.75E-13.63E+23.04E-18.16E+1Nb95La1404.44E+22.48E+21.57E-11.02E-11.18E+23.062.40E+26.35E-24.94E-24.94E-23.061.05E+64.94E-23.05E+3Ce1443.992.651.831.712.271.715.74E+2*Calculated inaccordance withNUREG0133,Section4.3.1;andRegulatory Guide1.109,Regulatory positionC,Section1.004152LL35Unit1ODCMRevision13December1993 eeIINLI5"4'e'i,W LIVER4.45E-1NUCLIDEBONEH3Cr51CQ64Mn545.942'54.38E+31.82E-21-82E-21.277.64E-12.93E-11.298.41E+25.946.941.31E+3TABLE2-4AVALUES-LIQUID*RADWASTETANKADULTprem-mlhr-pCiTBODYTHYROIDKIDNEY4.45E-14.45E-14.45E-1LUNGGI-TRACT1.675.943.14E+22.35E+21.34E+44.45E-14.45E-1Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Mn56Mo99Na24I131I133Ni65I132Cs134Cs136Cs137Ba140ce141Nb95La140Ce1446.64E+24.58E+21.03E+32.43E+3l.629.15E+19.60E+12.57E+22.31E47.36E+42.25E+49.39E-S5.60E+51.361.15E1.73E-12.481.224.58E-38.70E+11.35E+21.35E+21.45E+22.07E+22.35E+14.09E+11.93E-12.51E-24.68E-31.25E-22.98E+57.08E+52.96E+41.17E+53.82E+55.22E+52.24E+23.49E-19.53E-28.20E-24.39E+22.44E+21.11E-16.03E-21.07E+29.31E+21~152.03E+21.621.151.626.71E+29.60E+19.60E+1332E+43.304.92E+46.45E+29.39E-S9.39E-S1.37E+51.123.07E-21.061.212.20E-11.32E+22.24E-25.47E-12.41E+28.84E-38.84E-34.24E-13.07E-18.47E-11.66E+1458E-31.97E+21.35E+21.35E+21.35E+21.19E+26.79E+43.55E+21.25E+16'2E+37.14E+11.14E-24.38E-34.38E-12.00E-25.79E+53.03E+12.29E+58.42E+45.32E-16.51E+43.42E+54.60E+11.77E+51.47E+16.83E-21.64E-15.75E-25.44E-26.72E-22.56E+22.63E+26.79E+28.09E+31.621.82E+39.60E+14.99E+33.304.63E+49.39E-53.60E+31.061.62E+43.06E+25.524-58E-32.02E+21.35E+21.35E+24.80E-25.47E+1118E-43.68E+16.36E-12.35E-37.61E+41.24E+48.93E+31.33E+45.90E+41.02E+42.29E-l4.61E+25.44E-21.06E+25.47E-11.48E+68.84E-33.78E+33.07E-17.37E+2*Calculated inaccordance withNUREG0133,Section4.3.1;andRegulatory Guide1.109,Regulatory positionC,Section1.004152LL36Unit1ODCMRevision13December1993 1s.
NUCLIDEBONELIVERCs136Cs1371.04E-13.06E-11.261.47Ba1403.85E-13.85E-4Ce1411.85E-41.13E-4Nb95La1409.88E-54.07E-S3.03E-S1.20E-SCe1447.16E-32.93E-3H37.43E-4Cr51Cu642.89E-4Mn544.79E-2Fe553.35E-22.16E-2Fe597.29E-21.27E-1Co588.58E-3Co602.60E-2Zn654.42E-21.52E-1Sr895.95Sr904.46E+1Zr954.90E-41.19E-4Mn56,6.17E-7Mo996.00E-2Na246.07E-36.07E-3I1317.77E-29.16E-2I1331.08E-21.58E-2Ni653.41E-63.86E-7I1324.05E-78.22E-7Cs1349.08E-11.69TABLE2-5VALUES-LI{}UID*EMERGENCY CONDENSER VENTINFANTmrem-mlhr-pciTBODYTHYROID7.43E-47.43E-4KIDNEY7.43E-41.34E-4108E-25.78E-35.02E-22.14E-26.15E-26'9E-21.71E-11.14E+18.47E-51.06E-71.17E-24.89E-41.06E-27.35E-21.29E-45.30E-78.97E-26.07E-36.07E-36.07E-34.03E-23'1E+11.07E-14.62E-32.871.76E-71.85E-22.93E-73.85E-S9.17E-71.71E-11.14E-11.04E-11.99E-21.33E-52.35E-S3.08E-64.02E-44.36E-11.22E-l3.95E-19.15E-S3.48E-S2.92E-51.19E-33.30E-S2.15E-S4.70E-6LUNGGI-TRACT7.43E-47.43E-44.18E-S9.61E-45.94E-31~76E-2'1~06E-22.75E-33.76E-26.08E-22'4E-26.19E-21.28E-11.22E-15.57E-15.95E-25,60E-51.98E-26.07E-36.07E-33.27E-32.67E-32.94E-56.66E-71.79E-14.60E-32.49E-24.64E-31.60E-14.61E-32.37E-49.47E-25.82E-23.43E-21.41E-14.11E-1*Calculated inaccordance withNUREG0133,Section4.3.1;andRegulatory Guide1.109,Regulatory positionC,Section1.004152LL37Unit1ODCMRevision13December1993
~e'IIIIIir'A>,
LIVER1.44E-1NUCLIDEBONEH3Cr513.78E-S378E-5Cu642.63Mn541.23E-23.36E+3Fe559.04E+24.79E+2Fe591.28E+32.07E+3Co583.36E-37.01E+1Co601.99E-l2.08E+2Zn652.15E+45.73E+4Sr893.07E+4sr904.01E+5Zr953.01E-l6.78E-2Mn56-1.65E-lMo998.16E+1Na241.50E+21.50E+2I1311.86E+2187E+2I1333.08E+13.81E+1Ni652.66E-12.50E-2I1326.01E-31.10E-2Cs1343.68E+56.04E+5Cs1363.51E+49.66E+4Cs1375.14E+54.92E+5Ba140Ce1412.48E+22.17E-13.08E-21.54E-2Ce1441.645.15E-lNb955'1E+22.03E+2La1401.31E-14.59E-21.371.597.58E-12'7E-16.358.95E+21.23E-29.42E+21.49E+21.03E+32.38E-32.38E-32.15E+23.36E-33.36E-36.14E+21.99E-11.99E-13.56E+46.84E-33.61E+48.78E+21~02E+56.06E-22.19E-39.61E-23.73E-22.02E+1.2.00E-11.74E+21.50E+21.50E+21.50E+21.06E+26.19E+43.08E+21.44E+17+07E+36.35E+11.46E-25.08E-35.12E-11.69E-21.27E+56.29E-21.87E+56.25E+47.27E+41.10E-39.55E-25.14E+41.60E+51.45E+11.42E-47.09E-22.39E-31.13E-46.83E-31.45E+21.14E-31.90E+21.55E-21.83E-51.83E-S8.81E-26.36E-42.85E-1TABLE2-6~VALUES-LIQUID*EMERGENCY CONDENSER VENTCHILDmrem-mlhr-pCi'ITBODYTHYROIDKIDNEY1.44E-11.44E-11.44E-1LUNGGI-TRACT1.44E-11.44E-11.387'4E+11.23E+21.23E-22.82E+32.71E+28.88E+16.00E+22.15E+33.36E-34.09E+21.99E-11.15E+36.84E-31.01E+41.19E+35.40E+32.19E-36.84E+12.39E+16.75E+11.50E+21.50E+21.67E+11.53E+13.071.30E-26.71E+43.25E+37.67E+33.40E+35.77E+43.08E+31.30E-11.26E+21.13E-41.91E+11.14E-33.75E+51.83E-51.28E+36.36E-41.34E+2*Calculated inaccordance withNUREG0133,Section4.3.1;andRegulatory Guide1.109,Regulatory positionC,Section1.004152LL38Unit1ODCM.Revision 13December1993 t,A,Vlbeg1~.'gC'll
'NUCLIDEBONEH3LIVER1.74E-1TABLE2-7~VALUES-LIQUID*EMERGENCY CONDENSER VENTTEENmrem-mlhr-pCiTBODYTHYROIDKIDNEY1.74E-11.74E-11.74E-1LUNGGI-TRACT1.74E-11.74E-1Cu642.86Cr511.81E-41.81E-41.281.357.12E-12.81E-17.241.832.15E+22.22E+2Fe556.89E+2Fe591.05E+34.88E+22.46E+3Co581.61E-28.78E+1Co609.53E-12'7E+2Zn652.10E+4Sr892.38E+4Sr904.54E+57.28E+4Zr952.56E-18.80E-2Mn545.89E-24.29E+38.52E+25.89E-21.28E+31.14E+29.50E+21.14E-21.14E-22.02E+21.61E-21.61E-25.78E+29.53E-19.53E-13.39E+43.28E-24.66E+4681E+21.12E+56.38E-21.05E-21.24E-15.89E-28.81E+33.10E+22.11E+27.76E25.82E+31.61E-21.21E+39.53E-l3.34E+33-28E-23.08E+42.83E+31.27E+41.05E-21.79E+2Mn56Mo991~81E-18.57E+13.22E-'21.63E+12.29E-11.96E+21.19E+11.54E+2Na241.38E+21.38E+2I1311.47E+22.06E+2I1332.42E+14.11E+1Ni652.08E-1I1324.86E-3Cs1343.05E+52.66E-21.27E-27.18E+5Ce1441.275.28E-1Cs1362.98E+41.17E+5Cs1374.09E+55.44E+5Ba1401.96E+22.47E-2Ce1412.43E-21.64E-2Nb954.41E+2,2.45E+2La1401.05E-15.17E>>21.38E+21.38E+21.38E+21.10E+26.00E+43.54E+21.25E+15.74E+37.21E+11.21E-24.56E-34.29E-12.00E-23.33E+53.01E-12.28E+57.87E+45.28E-36.38E+41.89E+54.57E-11.85E+51.27E+16.77E-48.23E-22.36E-35.40E-48.02E-31.15E+25.43E-32.37E+21.38E-28.78E-S8.78E-57.12E-23.04E-33.17E-11.38E+21.38E+24.77E-44.07E+13.11E+11.445.54E-38.71E+48.93E+31.01E+49.43E+37.19E+47.73E+31.62E-13.03E+25.40E-44.54E+15.43E-31.05E+68.78E-52.96E+33.04E-33.19E+2*Calculated inaccordance withNUREG0133,Section4.3.1;andRegulatory
'uide1.109,Regulatory positionC,Section1.004152LL39Unit1ODCMRevision13December1993
\4+SI1I'~Ital NUCLIDEBONELIVERH3227E-1Cs136Cs137Ba140Ce141Nb95La140Ce1442.96E+41.17E+53.82E+55.22E+51.84E+22.32E-1.2'1E-2,1.50E-24.38E+22.44E+29.90E-24.99E-21.174.89E-1Cr513.24E-S3.24E-5Cu642.72Mn541.06E-24.37E+3Fe556.58E+24.55E+2Fe591.02E+32.41E+3Co582.88E-38.83E+1Co601.71E-12.56E+2Zn652.31E+47.36E+4Sr892.18E+4Sr905.44E+5Zr952.40E-17.-81E-2Mn561.73E-1Mo998.04E+1Na241.34E+21.34E+2I1311.37E+21.96E+2I1332.25E+13.91E+1Ni651.93E-12.50E-2I1324.64E-31.24E-2Cs1342.98E+57.08E+5TABLE2-8AVALUES-LIQUID*EMERGENCY CONDENSER VENTADULTmrem-mlhr-pCiTBODYTHYROIDKIDNEY2.27E-l227E-12.27E-11.241.287.43E-12.74E-16.868.33E+21.06E-21.30E+31.06E+29.22E+22.04E-32.04E-31.98E+22.88E-32.88E-35.65E+21.71E-11.71E-13.32E+4Si87E-34.92E+46.27E+21.34E+55.35E-21.88E-31.22E-13.07E-21.53E+12.20E-11.82E+21.34E+21.34E+21.34E+21.12E+26.43E+43.36E+21.19E+15.75E+36.82E+1114E-24.34E-34.34E-11.98E-25.79E+55.39E-22.29E+58.42E+49.46E-46.51E+43.42E+58.19E-21.77E+51.21E+11.21E-47.88E-21.78E-39.67E-57.00E-31.31E+29.73E-42.41E+2LUNGGI-TRACT2.27E-12.27E-l1.653'2E+22.32E+21.06E-21.34E+42.54E+22.61E+26.72E+28.02E+32.88E-31.79E+31.71E-14.81E+35.87E-34.63E+43.50E+31.57E+41.88E-32.42E+25.521.86E+21.34E+21.34E+25.17E+13.51E+16'6E-12.33E-37.61E+41.24E+48.92E+31.33E+45.89E+41.01E+41.33E-13.79E+29.67E-S5.68E+19.73E-41.48E+66.33E-25.45E-42.90E-15.45E-43.95E+21.32E-21.57E-51.57E-51.57E-53.66E+3*Calculated inaccordance withNUREG0133,Section4.3.1;andRegulatory Guide1.109,Regulatory positionC,Section1.004152LL40Unit1ODCMRevision13December1993 L1 TABLE3-1CriticalReceptorDispersion Parameters'or GroundLevelandElevatedReleasesELEVATEDELEVATEDGROUNDoGROUNDoLOCATIONResidences DairyCows'ilkGoats'eat AnimalsGardensSiteBoundaryDIRE(980)SE(1300)SE(1300)ESE(1154)E(974)ENE(674)MILES1.42.62.61.81.80.41.8E-07'.2E-08'.2E-08'.1E-OS'.0E-07'.4E-06~5.2E-09~7'E-10'.0E-10'.7E-09'.5E-09'.4E-08~~Xsecm'i~D~m'i~Xsecms+4.02E-076.00E-086.00E-OS1.16E-072.53E-076.63E-06+D~m8.58E-091.64E-091.64Ei..093.54E-095.55E-096.35E-08a.Thesevalueswillbeusedindosecalculations beginning inApril1986butmayberevisedperiodically toaccountforchangesinlocations offarms,gardensorcriticalresidences.
b.Valuesbasedon5yearannualmeteorological data(C.T.Main,Rev.2)c.Valuesbasedon5yearaveragegrazingseasonmeteorological data(C.T.MainRev.2)d.Valuearebasedonmostrestrictive X/Qland-based sector(ENE).(C.T.Main,Rev.2)e.Valuesarebasedonaverageannualmeteorological datafortheyear1985.f.Conservative locationbasedonpastdairycowandgoatmilkhistory.004152LL41Unit1ObCMRevision13December1993
,~vr.~
TABLE3-2GammaAirandWholeBodyPlumeShineDoseFactors*ForNobleGasesNuclideKr-85Kr-85mKr-87Kr-88Kr-89Kr-83mXe-'133Xe-133mXe-135Xe-135mXe-137Xe-138Xe-131mAr-41GammaAirB,meadrCisec2.23E-61.75E-31.02E-2.2.23E-22.50E-22.26E-62.80E-42.27E-42.62E-35.20E-32.30E-31.32E-21.74E-51.64E-2GammaWholeBodyV,m~rem~eiaec1.68E-39.65E-32.17E-21.71E-22.41E-41.87E-42.50E-34.89E-32.20E-31.26E-21.47E-61.57E-2*Calculated inaccordance withRegulatory Guide1.109.(SeeAppendixB.)004152LL42Unit1ODCMRevision13December1993 hA\PV TABLE3-3IMMERSION DOSEFACTORS*Nuclide1~B~od*"~L-Skin**~~Air***~NA-ir<<<<<<Kr83m7.56E-02Kr85m1.17E3Kr851.61E1Kr875.92E3Kr881.47E4Kr891.66E4Kr901.56E4Xe131m9.15E1Xe133m2.51E2Xe1332.94E2Xe135m3.12E3Xe1351.81E3Xe1371.42E3Xe1388.83E3Ar418.84E31.46E31.34E39.73E3237E31.01E47.29E34.76E29.94E23.06E27.11E21.86E31.22E44.13E32.69E3l.93E11.23E31.72E16.17E31.52E41.73E41.63E41.56E23'7E23.53E23.36E31.92E31.51E39.21E39.30E32.88E21.97E31.95E31.03E42.93E31.06E47.83E31.11E3.1.48E31.05E37.39E22.46E31.27E44.75E33.28E3*From,TableB-l.Regulatory Guide1.109Rev.1**mrem/yrperpci/mi.***mrad/yrperpCi/m~.004152LL43Unit1ODCMRevision13December1993 th'i4'1I%wll TABLE3-4DOSEANDDOSERATEQVALUESINHALATION INFANTl~rem~rpci/mNUCLIDEH3*C14*Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I-131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE',65E4 1.97E41.36E41.93E43.98E54.09E71.15ES1.57E43.79E41.32E43.96ES5.49E55.60E45.05E22.77E43.19E67.94E3LIVER6.47E25.31E32.53E41.17E42.35E41.22E38.02E36.26E42.79E46.43E31.65E24.44E41.92E47.03ES6.12E55.60E12.00E21.67E41.21E68.13E36.47E25.31E38.95E14.98E33.33E39.48E31.82E31.18E43.11E41.14E42.59E62.03E43.78E33.23E11.96E45.60E37.45E44.55E42.90E35.15E11.99E31.76ES5.00E26.47E25.31E35.75E11.48E73.56E6T.BODY"THYROIDKIDNEY6.47E25.31E31.32E14.98E33.25E43.11E44.72E32.65E25.18E42.24E41.90E51.72ES1.34E15.25E35.38ES3.15E3LUNG6.47E25.31E31.28E4GI-LLI6.47E25.31E33.57E21'OE6706E38.69E41.02E67.77E54.51E66.47E5203E61.12E71.75E64.79ES1.35ES7.97E47.13E41.60E61.09E32.48E41.11E43.19E45.14E46.40E41.31ES2.17E41.27E44.87E41.06E32.16E31.33E31.33E33.84E45.17ES9.84E63.22ES2.16E41.48ES3.12E41.68E58.48E4*mrem/yrperpci/m~.'hisandfollowing gTablesCalculated inaccordance withNUREG0133,Section5.3.1,exceptC14valuesinaccordance withRegulatory Guide1.109EquationC-8.004152LL44Unit1ODOMRevision13December1993 JaA,F TABLE3-5DOSEANDDOSERATEQVALUES-INHALATION mremrpCi/mCHILDNUCLIDEH3*C14*Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE'.59E4 4.74E42.07E44.26E45.99E51.01E81.90E52.35E44.81E41.66E4'.51E5 9.07ES7.40E46.44E23.92E46.77E61.08E4LIVER1.12E36.73E34.29E42.52E43'4E41.77E31.31E41.13ES4.18E49.18E31.72E24.81E42.03E41.01E68.25E56.48E12.25E21.95E42'2E68.73E3T.BODY1.12E36.73E31.54E29.51E3777E31.67E43.16E32.26E4703E41.72E46.44E63.70E46.55E34.26E12.73E47.70E32.25E51.28E54.33E37.55El2.90E33.61E56.81E21.12E36.73E38.55E11.12E36.73E32.43El1.00E4'7.14E41.62E73.85E65.96E48.62E33.92E27.88E43.38E43.30E52.82ES2.11E18.55E31~17E64.81E3THYROIDKIDNEYLUNG1.12E3GI-LL'I1.12E31~27E67.07E41.11E63.44E47.07E69.95ES9.62E41.63E42.16E61.67ES1.48E73.43ES2.23E66.11E46.14ES3.70E41.35ES1.21ES1~27ES2.84E35.48E3385E31.04ES3.62E31.74E61.02E51.83ES2.26ES5.44ES1.20E73.28ES5.66E43.89E58.21E46.73E36.73E31.70E41.08E31.58E62.29E41.11E52.87E3*mrem/yrperpci/m~.004152LL45Unit1ODCMRevision13December1993 lrtIjINI'~lP NUCLIDEH3*C14*Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147'BONE'.60E4 3.34E41.59E43.86E44.34E51.08E81.46E51.86E43.54E41.22E45.02E56.70ES5.47E44.79E22.84E44.89E67.86E3LIVER1.27E34.87E35.11E42.38E43.70E42.07E31.51E41.34ES4.58E41.03E41.69E24.91E42.05E41.13E68.48ES6.70E12.36E21.90E42.02E68.56E31.27E34.87E31~35E28.40E35.54E31.43E42.78E31.98E46.24E41.25E46.68E63.15E45.66E33.22E12.64E46.22E35.49E53.11E53.52E36.26E12.17E32.62E55.13E21.27E34'7E37.50E11.46E72'2E6TABLE3-6DOSEANDDOSERATEQVALUES-INHALATION mremrpCi/mT.BODYTHYROIDTEENKIDNEY1.27E34.87E33.07E11.27E48.64E46.74E41.00E44.11E28.40E43.59E43.75E53.04E52.28E18.88E31~21E65.02E3LUNG1+27E3GI-LLI1.27E34.87E34.87E32.10E43.00E38'2E61.24E62.59E54.66E42.42E63.71E51.65E77.65ES2.69E61.49ES7.51E59.68E41.54ES2.69E51.46ES1.21E52.03E62.14E56.14E56.49E31.03E49.76E38'8E32.29ES4.87E51.26ES1.34E78.64E53.72E51.82E51.98E66.68E41.24E56.39E31.53E61.78E51.34E69.52E4*mrem/yrperpci/m~.004152LL46Unit1ODCMRevision13December1993 i',>>
NUCLIDEH3*C14+Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE1.82E42.46E41.18E43.24E43.04ES9.92E71.07E51.41E42.52E48.64E33.73E54.78ES3.90E43.44E21.99E43.43E65.27E3LIVER1.26E33.41E33.96E41.70E42.78E41.58E31.15E41.03ES3.44E47.82E31.21E23.58E41.48E48.48ES6.21ES4.90E11.74E21.35E41.43E66.10E31.26E33.41E31.00E26.30E33.94E31.06E42.07E31.48E44.66E48.72E36.10E62.33E44.21E32.30E12.05E44.52E37.28E5428ES2.57E34.58E11.53E31.84E53.65E21.26E33.41E35.95E11.19E72.15E6TABLE3-7DOSEANDDOSERATEQVALUES-INHALATION mremrpCi/mT.BODY'HYROIDADULTKIDNEY1.26E33.41E32.28E19.84E36.90E45.42E47.74E32.91E26.13E42.58E42.87ES2.22ES1.67E16.26E38.48ES3.56E3LUNG1'26E3GI-LL'I1.26E31.02E69.28ES5.97E61.88E51.06E52.85E58.64E55.34E41.40E63.50ES9.60E67.22E51.77E65.05ES1.50ES1.04ES9.12E42.48ES9.76E47.52E41.27E61.36E53.62ES6.28E38.88E31.04E48.40E32.18ES458E51.20E57.78E68.16ES2.21ES1.73ES3.41E33.41E31.44E43.32E31.40E67.74E47.21E46.03E3*mrem/yrperpci/m~.004152LL47Unit1ODCMRevision13December1993 gl
~UCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147TABLE3-8DOSEANDDOSERATEQVALUES-GROUNDPLANEALLAGEGROUPSmi-mremlrr pci/secTOTALBODY4.65E61.40E92.73E83.80E82.15E10746ES2.16E42.45E81.36E83.99E61.72E72.39E66.83E91.03E102.05E71.92E71.37E76.96E78.46E6SIN550E61.64E93'0E84'5E82'3E108'7E82.51E42.85E81.61E84.63E62.09E72.91E67.97E91.20E102.35E72.18E71.54E78.07E71.01E7004152LL48Unit1ODCMRevision13December1993
~lI' TABLE3-9DOSEANDDOSERATEVALUES-COWMILK-INFANTmd~mremrpci/secNUCLIDEH3C14'r51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE3.23E6~LIVR2.38E36.89ES8.43E71.22E83.53E96.93E98.19E103.85E34.21E56~81ES8.52E62.51E75.44E72'3ES1.39E75'0E71.21E109.39E21.64ES1.04ES8.02ES1.24E71.21E82.03E12.28E41.49E64.43E21.21E57.991.39E4610E54.55E22.41E104.49E103.47E104.06E102.38E36'9E58.35E45.68E61.45E78.38E73.46E71.39ES558E91.99E82.09E106.66E21.17ES2.03E73.53E83.63E64.54E92.88E96.22E62.061.64E38.34E42.79El2.38E36.89ES5.45E42.64E112.26E9T.BODY'HYROIDKIDNEY2.38E36.89E51.19E45.56E65.87E91.01E31.54ES1.55E89.37E81.46E71.16E101.09E102.87E44.28E32.46E51.76E2LUNG2.38E36.89E51.06E52.66E7GI-LDI2.38E36.89E52.43E69.21E66.91E64.74E94.41E97.42E43.46E71.40ES1.02E101.42E81.02E94.68E53.03E83.43E72.86E72.10E61.22ES1.27ES2.97E79.39E47.18E68.54E72.89E56.29E71.02ESmrem/yrperpci/m~.004152LL49Unit1ODCMRevision13December1993 1'hl~Iy.kr NUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE'.65E6 L~IVE1.57E33.29E56.97E76.52E72.63E93.64E97.53E102.17E31.86ES3.26ES4.04E61.35E73.07E71.06ES6.94E62.89E77.00E94.77E21.03E44.07E73.28ES4.99E65.87E79.701.15E41.04E62.24E25.14E43.395.73E33.26E51.81E21.50E102.45E102.17E102.08E10T.BODYTHYROIDKIDNEY1.57E31.57E33.29ES'.29E55.27E43.59E61.15E7"5.26E7'2.13E78.52E74.35E91.04ES1.91E104.25E25.69E41.01E71.86ES1.89E65.18E93.07E93.43E61.148.51E25.55E41.40E12.93E41.08E119.27E81.57E33.29E57.99E33.78E64.41E96.83E21.00ES8.69E75.39ES8.32E67.61E96.78E91.67E42.51E31.80ES9.94E1TABLE3-10DOSEANDDOSERATEQVALUES-COWMILK-CHILDmi~mremrpCi/secLUNG1.57E3GI-LLI1'7E33.06E72.73E92.44E93.07E41.10E84.05E71.60ES1.23E91.41ES1.01E94.98E54.42ES3.37E72.92E72.01E61.32ES1.30ES2.97E79.45E47.15E68.49E72.87ES3.29ES3.29ES5.34E42.80E61.13E72.09E76.85E6mrem/yrperpci/m~.004152LL50Unit1ODCMRevt.sion 13December1993 gtl TABLE3-11DOSEANDDOSERATEQVALUES-COWMILK-TEENgj~mremrpCi/secNUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE'.70E5 2.78E72.81E71.34E91.47E94.45E109.34E21.86E51.34E81.66E66.49E99.02E92.43E74.054.67E34.22ES9.12E1LIVER9.94E21.34E5901E61.97E76.57E74.55E61.86E74.65E92.95E21.03E52.24E71.88E82.82E61.53E101.20E102.98E41.993.12E31.74ES9.91E1T.BODY9.94E21.34ES2.58E41'9E64.59E62.54E71.05E74.19E72.17E94.21E71.10E102.03E25.69E44.27E61.01E88.59ES7.08E94.18E91.57E65.30E-13.58E22.27E45.94EOTHYROIDKIDNEY9.94E21.34E51.44E49.94E21.34ES5.66E32.69E62.97E91.47E31.04ES5.82E14.33E21.00E55.12E75.49E103.24E83.93E84.94E64.85E94.08E91.01E4LUNGGI-LLI1.35E51.34E53.69E44.34E61.25E72.07E71.85E9159E92.00E41.85E78.52E61.55E86.27E72.42E81.97E91.75E81.25E96.80E54.42E84.01E73.72E72.13E61.90E81.71E83.75E71.14E58'1E61.06E83.58ES9.94E29.94E2mrem/yrperpci/m~.004152LL51Unit1ODCMRevision13December1993 rV4JIYl'JI[
TABLE3-12DOSEANDDOSERATEQVALUES-COWMILK-ADULTme~mremrpCi/secNUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE3.63E51.57E71.61E78.71ES7.99ES3.15E105.34E21.09E57.41E79.09E53.74E94.97E91.35E72.262.54E32.29ES4.74E1LIVER7.63E27.26E45.41E61~OBE73.79E72.70E61.10E72.77E91.71E26.07E41.24E71.06ES1~58E68.89E96.80E91.69E41.141.72E39.58E45.48E1T.BODY7.63E27.26E41.48E41.03E62.52E61.45E76.05E62.42E71.25E92.29E77.74E91.16E23.27E42.36E66.08E74.82ES7.27E94.46E98.83E53.01E-11.95E21.23E43.28EOTHYROIDKIDNEY7.63E27.63E2~LUNGI-LII7.63E27.63E27'6E48.85E33.26E3161E61.96E43.72E61.66E76.04E66.21E63.47E102.32ES1.85E92.69E26.00E42.81E71.82ES2.76E62.88E92.31E95.75E37.99E25.68E43.20E11.06E79.55ES7.68ES9.69E31.26EB5.47E72.06EB1.75E91.28EB9.11EB5.43ES3.69ES2.87E72SOE71.42E61.56ES1.32EB277E78.35E46.58E67.74E72.63E57.26E4'.26E47.26E4mrem/yrperpci/m~.004152LL52Unit1ODCMRevision13December1993
NUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE3.23E61.10E61.59E64.24ES1.48E101.72E114.66E29.42E48.17ES1.02E77.23E101.04E111.45E72.4302.74E31.79ES5.32E1LIVER6.33E36.89ES3'1E67.08E52.78E61.67E67.08E61.45E91.13E23.88E41.27E79.63ES1.49E71.35E111.22E111.45E49.59E-l1.67E37.32E45.47E1GI-LLIKIDNEYT.BODYTHYROIDLUNG6.33E36.89E56.33E36'9E51~43E36.67E56.33E36.89E51.00E46.82E51.89E51.09E64.16E61.67E76.70ES4.24E84.38E108.04E12.24E42.47E64.23E84.36E61.36E108.63E97.48ES2.47E-11.96E21.00E43.35EO6.33E36.89ES6.56E36.33E36.89E51.28E42.93E51.11E68.98E43.46ES8.21E51.33E64.16E61.68E71.23E93'4ES2.15E95.65E43'7E74.17E63.44E72.52E67.04ES1.22E22.78E41.89E73.16E111.12E92.71E91.75E73.47E101.42E103.66ES3.27E101.32E103.81ES3.44E38.91E33.56E61.13E48.62E55.14E22.96E42.11El1.03E73.46E4TABLE3-13DOSEANDDOSERATEVALUES-GOATMILK-INFANTm'mremlrr pCi/secmrem/yrperpci/m3.004152LL53Unit1ODCMRevision13December1993 MWWtJ TABLE3-14DOSEANDDOSERATER;VALUES-GOATMILK-CHILDmi~mremrpCi/secNUCLIDEH3C14'r51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE1.65E6LIVER4.17E33.29E5906E58'2ES3.15ES7.77E91.58E112.62E25.05E43.91ES4.84E61.62E64.81E51.38E68.35E53.47E68.40ES5.76E11.96E44.95E63.94E85.99E66.52E107.05E61.161.38E31.25ES2.68E16.24E106.18E34.07E-16.88E23.91E42.17El4.49E107.37E10T.BODY4.17E33.29E56.34E34.31ES1.49E56.86E52.56E61.02E75.23ES2.22ES4.01E105.13E11.40E41.22E62.24ES2'7E61.55E109.21E94.12ES1.37E-11.02E26.66E31.68EOTHYROID4.17E33.29E53.52E3KIDNEY4.17E33.29E59.62E24.54E55.29ESLUNG4.17E3GI-LLI4.17E33.29E53.29E56.43E32.72E53.99E53.36ES1.36E68.91E41.43E64.87E61.92E71.48ES3.01ES2.13E96.01E43.63E74.09E63.50E71.11E99.98E62.28E1058.19E92.03E107.32E92.01E33.68E33.02E22.16E41.19E12.41E63.97E83.91ES3.57E61.13E48.59E51.02E73.44E48.25E11.85E41.06E71.30E116.46ESmrem/yrperpci/m~.004152LL54Unit1ODCMRevision13December1993
~~
TABLE3-15DOSEANDDOSERATEQVALUES-GOATMILK-me~mremrpci/secTEENNUCLIDEH3C14'r51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE'.70ES LIVER2.64E31.34E53.61E53.67E51~61ES3.14E99.36E101.13E22.23E41.61E81.99E61.08E62.56E58.57ES5.46E52.23E65SSES3.56E11.24E42.72E62.26E83.38E62.92E64.86E-15.60E25.06E41.09E13.58E32.39E-l3.74E22.09E41.19E11.95E104.58E102.71E103.60E10T.BODYTHYROIDKIDNEY2.64E31.34ES3.11E32.15ES5.97E43.31E51.26E65.03E62.60ES8.99E72.31E102.45E16.82E35.19ES1.21ES1.03E62.13E101.25E101.88E5636E-24.30E12.72E37.13E-12.64E31.34ES1.73E32.64E31.34E56'2E23.23E53.57E84.72ES5.93E61.46E101.23E101.21E31.76E21.25E46.99EO5.23El1.20E46.23E66.59E103.89ESIUNGGI-LLI2.64E32.64E31~35ES1.34ES4.44E35.23ES1.62ES2.22E61.11ES2'0E52.03E65.56E94.76E97.53E62.91E72.36ES3.74ES2.63E98.22E45.30E74.87E64.47E72.56E65.70ES5.12ES2.41E34.50E61.37E41.07E61.27E74.29E4mrem/yrperpci/m~.004152LL55Unit1ODCMRevision13December1993 C'(1gS0~l TABLE3-16DOSEANDDOSERATEQVALUES-GOATMILK-ADULTm'~modemrpci/sec,NUCLIDEH3C14'r51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95,Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE'.63E5 LIVER2.03E37.26E42'4ES2.10ES105EB1.70E96.62E106.45E11.31E48.89E71.09E66.50E51.41E54.95E53.25E51.32E63.33EB2.07E17.29E31.51E61.27EB1.90E61.62E62.71E-13.06E22.75E45,69EO2.03E31.36E-l2.07E21.15E46.57EO1.12E102.67E101.49E102.04E10T.BODY2.03E37.26E41.78E31.24E53.28E41.90E57.27ES2.91E61.51EB4.89E71.63E101.40E13.92E32.87E57.29E75.79E52.18E101.34E101.06E53.61E-22.34E11.48E33.93E-1THYROIDKIDNEY2.03E37.26E41.06E32.03E37.26E43.92E21.93ES2.23EB2.79EB3.31E68.63E96.93E96.91E29.60E16.82E33.84EO3.25E17.21E33.41E64.17E102.18EBLUNGGI-LLI2.36E37.85E41.38ES4.48E51~99E68.07E41.65E66.58E62.48E72.10EB2.73EB1.91E96.56E44.42E73.49E63.36E71.71E62.86E94.67EB2.30E91.16E33.95EB3.33E61,00E47.90E59.30E63.15E42.03E32'3E37.26E47'6E4mrem/yrperpci/m~.004152LL56Unit1ODCMRevision13December1993
TABLE3-17DOSEANDDOSERATEQVALUES-COWMEAT-CHILDm~~mremrpci/secNUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE5.29ES2.89ES2.04ES2.38ES2.65ES7.01E91.51E64.10E64.15E69.38E-26.09ES8.99ES2.20E72.80E-21.17E41.48E65.93E3LIVER2.34E21'6ES5.15E61.53ES3.30EB9.41E64.64E76.35ES3.32ES1.59E65.42E44.18E61.16E-11.00E98.60EB1.93E49.78E-35.82E34.65ES4.80E3T.BODY2.34E21.06ES4;55E31.37E64.74E71.65ES2.88E71.37ES3.95ES7.57E61.78E92.95E51.14E61.34E42.37E64.39E-22.11ES1.27ES1.28E63.30E-38.64E27.91E43.72E22.34E21.06ES2.52E32.34E21.06ES6.90E21.44E64.00ES1.38E92.15E14.75E51.50E61.16E56.86E61.93E-13.10ES2.80EB6.27E32.55E32.57E52.64E3THYROIDKIDNEYLUNGI-LL'I2.34E22.34E21.06E51'6E59.58E71.11EB1.01EB3.44ES5.49E72.57EB1.12EB1.03E79.44E73.46EB2.95E94.48E43.72E54.67E-25.39E65.39E61.15E41.11E72.73E27.26E61.21EB7.61E64'1E32'1ES4.32E68.66E72.84E7mrem/yrperpci/m~.004152LL57Unit1ODCMRevision13December1993 A
TABLE3-18DOSEANDDOSERATEQVALUES-COWMEAT-TEENme~mremrpCi/secNUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr.89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE'.81ES 1.50ES1.15ES1~59ES1.40EB5.42E98.50E52.37E62.24E65.05E-23.46ES4.88ES1.19E71.53E-26.19E37'7ES3.16E3LIVER1.94E25.62E4450E61.07ES2.69ES8.05E63.90E75'2EB2.68E51.32E63.90E43.13E68.57E-28.13ES6.49EB1.46E47.51E-34.'14E33.26ES3.44E3T.BODY1.94E25.62E42.93E38.93ES2.49E71.04ES1.86E7S.SOE72.57EB4.01E61.34E91.84ES7.24ES7.43E31.68E62.61E-23.77ES2.26ES7.68ES2.00E-3475E24.23E42.06E21.94E25.62E41.62E31.94E25.62E46.39E21.34E63.53ES9.15EB1.20E13.94ES1.28E68.92E45.40E6"1.50E-12.58ES2.21EB4.95E31~95E31.94E52.02E3THYROIDKIDNEYLUNG1.94E25.62E4GI-LL'I1.94E25.62E48.47E76.36ES1.11ES5-09EB2'4ES1.67E71.52ES6.19EB5'3E96.98E46.20E56.48E-29.87E7,1.01E78.58E79.81E39.24E61.84E74.31E21.18E71.98EB1.24E74.16E34.90ES9.24E66.77E74.62E7mrem/yrperpci/m~.004152LI58Unit1ODCMRevision13December1993 8V.~r, TABLE3-19DOSEANDDOSERATEgVALUES-COWMEAT-ADULT'icremrpci/secNUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE3.33E5LIVER325E26.66E45.90E61.28E83.39ES1.04E75.03E77.19ES1.85ES1.44ES2.26ES1.66ES8.38E91.06E63.04E63.40E51.69E64.71E43.85E61.05E-11.03E98.04ES1.81E49.37E-34.99E33.90ES2.69E66.04E-24.35ES5.88ES1.44E71~86E-27.38E39.33E53.59E34.15E33.25E26.66E43.65E31.13E62.98E71.30ES2.34E71.11E83.25E84.76E62.06E92.30ES9.08E58.97E32.21E63.20E-28.45ES5.26ES9.44E52.48E-35.66E25.01E42.48E23.25E26.66E42.18E31.26E91.54E1T.BODYTHYROIDKIDNEY3'5E26.66E48.03E21.76E64.81ES5.34E51~67E61.07ES6.61E61.83E-13.35ES2.73ES.6.15E32'2E32.31ES2.42E3LUNGGI-LBI4.84E39.17E51.81E77.14E77.34E79.46E71.11ES9.07E71.04E41.13E92.12ES9.45ES4.53ES2.66E72.42ES1.08E91.03E101.09E51.02E69.44E-21.81E71.56E72.97E76.88E21.91E73.16ES1.99E73.25E23.25E26.66E46.66E4mrem/yrperpci/m~.004152LL59,Unit1ODCMRevision13December1993
TABLE3-20DOSEANDDOSERATEVALUES-VEGETATION me~mremrpci/secCHILDNUCLIDEH3C14'r51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE3.50E67'3ES3.97ES8.12ES3.59E101.24E123.86E61.02E67.16E71.69E61.60E102.39E102.77ES3.25E36.56E51.27ES7.23E4LIVER4.01E37.01ES6.65ES4.05E86.42E8645E73.78ES2'6E98.50E53.99E57.70E67.20E72.09E62.63E10229E102.43ES1.13E33.27E53.98E7586E4T.BODY4.01E37.01E51.17E51.77ES1.25ES3.20E81.97ES1.12E91.35E91.03E93.15E117.56E52.85E51.91E64.09E77.92E55.55E93.38E91.62E73.83E24,85E46.78E64.54E3THYROIDKIDNEY4.01E37.01E56.49E44'1E37.01ES1.77E41.86ES1.36E93.89ES3.49E68.15E97.46E97.90E41.43E52.21E73.22E41.22E63.75ES1.65E72.38E101.18ESLUNGGI-LLI1.86E82.93E92.68E91.45ES6.69ES3.76ES2.10E93.80E81.39E91.67E108.86ES7.37ES6.37E66.41E68.44E51.42ES1.43ES1'0ES3.16E74.08ES1.04E109.28E74.01E34.01E37.01E57.01ES1.18E56.20E65.58ES2.29E87.50E7mrem/yrperpci/m~.004152LL60Unit1ODOMRevision13December1993 IA1I.~l TABLE3-21DOSEANDDOSERATEQVALUES-VEGETATION-mi~mremrpCi/secTEENNUCLIDEH3CD14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147'BONE1.45E6LIVER2.59E32.91E53.10ES1.79EB424EB1.51E107e51E111.72E64.80E53.85E79.29E57.10E94.54EB2.20ES4.18ES4.37E72.49ES1.47E95.44E52.66ES5.64E65.39E71.58E61.67E101.38ES1.81E32.83ES5.27E73.66E41.69ESS.SSE21.89E52.18E73.98E41.01E101.35E102.59E32.91E56.16E49,01E75.13E71.61ES1.01ES5.60ES6.86ES4.33EB1'SE112.59E32.91ES3.42E4KIDNEY2.59E32.91E51.35E41.36ES9.41ES3e74E51'6ES1'SE62.89E74.80ES7.75E94.69E98.91E62'6E22.17E42.83E62.38637.99ES2.58E51.29E71.57E109.28E72.20EB2.76E65.31E94.59E95.74E48.89E41.30E72.34E4T.BODYTHYROIDLUNGGI-LTI2.59E32.59E32.91ES8.79E41.40EB2.91E51.03E79'2ES9.53E72.03E91.78E91.14ES1SOE92'1E101'6E91.14E91'1E71.07E71.19E62.08EB1.92EB2.13EB5.10E75.40EB1.33E101.44ES1'2ES9.89ES6'2ES3.24E96.23EBmrem/yrperpci/m~004152LL61Unit1ODCMRevision13December1993 i"'qp'h1I~
NUCLIDEH3C14Cr51Mn54Fe55Fe59Co58Co60Zn65Sr89Sr90Zr95Nb95Mo99I131I133Cs134Cs137Ba140La140Ce141Ce144Nd147BONE'.97ES 2.00ES1'6ES3.17E89.96E96.05E111.18E63.55E5404E71,00E64.67E96.36E91.29E81.98E31.97E53.29E73.36E4~IIVR2.26E31.79E53.13ES1.38ES2.96ES3'SE71.67ES1.01E93.77E51.98E56.14E65.78E71.74E61.11E108.70E91.61E59.97E21.33E51.38E73.88E42.26E31.79E54.64E45.97E73~22E71.13ES6.90E73.69E84.56E82.86E81.48E112.55E51.06E51'7E63.31E75.30ES9.08E95.70E98.42E62.63E21.51E41.77E62.32E32.26E31.79E52.77E41.90E102.56ESTABLE3-22DOSEANDDOSERATEVALUES-VEGETATION m'~modemepci/secT.BODY'HYROIDADULTKIDNEY2.26E31.79ES1.02E49.31E76.75E85.92E51.95E51.39E79.91E73.03E63.59E92.95E95.49E46.19E48.16E62.27E4LUNG2.26E3GI-LLX2'6E31.79E51.79E56.15E47.69E71.17E79.58ES7.91E7827E71.02E91.19E99.81E86.24E83.14E96'6ES1.60E91.75E101.20E91.20E91.42E71.53E71.56E61.94E81.68E89.25E4265E87.32E75.09ES1.11E101.86ESmrem/yrperpci/m~004152LL62Unit1ODOMRevision13December1993 l
TABLE3-23PARAMETERS FORTHEEVALUATION OFDOSESTOREALMEMBERSOFTHEPUBLICFROMGASEOUSANDLIQUIDEFFLUENTS
~Pathwa..Paraeetera FishU(kg/yr)-adultValue21Reference Reg.Guide1.109TableE-5FishShoreline D~(mrem/pCi)
U(hr/yr)-adult-teenEachRadionuclide 6767Reg.Guide1.109TableE-11Reg.Guide1.09AssumedtobesameasAdultShoreline EachRadionuclide (mrem/hrperpCi/mi)Reg.Guide1.109TableE-6Inhalation DFAEachRadionuclide Reg.Guide1.109TableE-7004152LL63Unit1ODCMRevision13December1993 eg1I NINEMILEPOINTNUCLEARSTATIONRADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAMSAIVlPLING LOCATIONS TABLE5.1TypeofSamleRadioiodine andParticulates (air)Radioiodine andParticulates (air)Radioiodine andParticulates (air)Radioiodine andParticulates (air)Radioiodine andParticulates (air)*MapLocationCollection SiteEnv.ProramNo.1NineMilePointRoadNorth(R-1)Co.Rt.295LakeRoad(R-2)Co.Rt.29(R-3)VillageofLycoming, NY(R-4)MontarioPointRoad(R-5)Ltion1.8miI88'1,1miI104oESE1.5miI132'E1.8miI143~SE16.4miI42oNEDirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)1012131415161718NorthShoreline Area(75)NorthShoreline Area(76)NorthShoreline Area(77)NorthShoreline Area(23)JAFEastBoundary(78)Rt.29(79)Rt.29(80)MinerRoad(81)MinerRoad(82)LakeviewRoad(83)LakeviewRoad(84)SiteMeteorological Tower(7)EnergyInformation Center(18)0.1mi@5~N0.1miI25oNNE0.2miI45oNE0.8miI70~ENE1.0miI90oE1.1miI115~ESE1.4miI133~SE1.6miI159oSSE1.6miI181~S1.2miI200~SSW1.1miI225oSW0.7miI250oWSW0.4miI265~W*Map=SeeFigures5.1-1and5.1-2004152LL64Unit1ODCMRevision13December1993 k4if0Yi~k'r NINEIVIILEPOINTNUCLEARSTATIONRADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAMSAMPLINGLOCATIONS TABLE5.1(Continued)
Typeofamle*MapLocationCollecionSiteEnv.ProramNo.LationDirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation,(TLD)
DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)DirectRadiation (TLD)SurfaceWaterSurfaceWater192021222324252627282930313233343536373839NorthShoreline (85)NorthShoreline (86)NorthShoreline (87)HickoryGrove(88)LeavittRoad(89)Rt.104(90)Rt.51A(91)MaidenLaneRoad(92)Co.Rt.53(93)Co.Rt.1(94)LakeShoreline (95)Phoenix,NYControl(49)S.W,Oswego,Control(14)Scriba,NY(96)AlcanAluminum, Rt.1A(58)Lycoming, NY(97)NewHaven,NY(56)W.Boundary, BibleCamp(15)LakeRoad(98)OSSInletCanal(NA)JAFNPPInletCanal(NA)0.2miI294~WNW0.1miI315'W0.1miI341oNNW4.5miI97~E4.1miI111ESE4.2miI135oSE4.8miI156SSE4.4miI183oS44miI205oSSW4.7miI223~SW4.1miI237~WSW19.8miI163~S12.6miI226oSW3.6miI199'SW3.1miI220~SW1.8miI143'E5.3miI123~ESE0.9miI237~WSW1.2miI101~E7.6miI235oSW0.5miI70oENE(NA)=Notapplicable
- Map=SeeFigures5.1-1and5.1-2004152LL65Unit1ODCMRevision13December1993
NINEMILEPOINTNUCLEARSTATIONRADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAMSAMPLINGLOCATIONS TABLE5.1(Continued)
TypeofSamle*MapLoainCollecionSieEnv.PrramNo.LoainShoreline SedimentFishFishFishMilkMilkMilkMilkMilkMilkMilk(CR)FoodProductFoodProductFoodProductFoodProductFoodProduct404142434445047646566734849505152SunsetBayShoreline (NA)NMPSiteDischarge Area(NA)NMPSiteDischarge Area(NA)OswegoHarborArea(NA)MilkLocation¹50MilkLocation¹7MilkLocation¹65MilkLocation¹55MilkLocation¹60MilkLocation¹4MilkLocation(Woodworth)
ProduceLocation¹6++(Bergenstock)
(NA)ProduceLocation¹1++(Culeton)
(NA)ProduceLocation¹2++(Vitullo)
(NA)ProduceLocation¹5++(C.S.Parkhurst)
(NA)ProduceLocation¹3++(C.Narewski)
(NA)1.5mi580~E0.3mi5315'W(and/or)0.6mi555~NE62mly235oSW8.2mi5934E5.5mi5107~ESE17.0mi5220~SW9.0mi595~E9.5mi590~E7.8mi5113~ESE13.9mi5234~SW1.9mi5141~SE1.7mi@96~E1.9mi5101~E1.5miy114oESE1.6mi@84oE*Map=(NA)TheJonesmilklocationhasbeendeletedduetotheherdbeingsold.(Maplocation¹46.)SeeFigures5.1-1and5.1-2FoodProductSamplesneednotnecessarily becollected fromalllistedlocations.
Collected sampleswillbeofthehighestcalculated siteaverageD/Q.Notapplicable ControlResult(location) 004152LL66Unit1ODOMRevision13December1993
NINEIVIILEPOINTNUCLEARSTATIONRADIOLOGICAL ENVIRONIVIENTAL MONITORING PROGRAIVI SAMPLINGLOCATIONS TABLE5.1(Continued)
TypeofamI*MapLocaionCollecioniEnv.PrramNo.LionFoodProductFoodProduct(CR)FoodProduct(CR)FoodProductFoodProductFoodProductFoodProductFoodProduct(CR)FoodProductFoodProductFoodProduct5354555657585960616263ProduceLocation¹4++(P.Parkhurst)
(NA)ProduceLocation¹7++(McMillen)(NA)ProduceLocation¹8'Denman)(NA)ProduceLocation¹9(O'onnor)
(NA)ProduceLocation¹10(C.Lawton)(NA)ProduceLocation¹11(C.R.Parkhurst)
(NA)ProduceLocation¹12(Barton)(NA)ProduceLocation¹13(Flack)(NA)ProduceLocation¹14(Koeneke)
(NA)ProduceLocation¹15(Whaley)(NA)ProduceLocation¹16(Murray)(NA)2.1miI110~ESE15.0miI223SW12.6miI225SW1.6miI171~S2.2miI123ESE2.0miI112~ESE1.9miI115ESE15.6miI225SW1.9miI95oE1.7miI136'E1.2miI207SSW*Map=SeeFigures5.1-1and5.1-2++=FoodProductSamplesneednotnecessarily becollected fromalllistedlocations.
Collected sampleswillbeofthehighestcalculated siteaverageD/Q.(NA)=Notapplicable CR=ControlResult(location) 004152LL67Unit1ODCMRevision13December1993
FIGURE5.1-1004152LL68Unit1ODCMRevision13December1993
FIGURE5.1-2004152LL69Unit1ODCMRevision13December1993 E4t
~saldteFIIISI24SCALEOFhlILESLEGENDte.ttIIICourtlyLltloe..TeesLlsal..CkyAVNaleUaea..................
heileoode..ENVI~NTAL
~K...........Q LOCAIIOSSFIGURE5.1-2NINEMILEPOINTOFF-SITEMAP(12/'93)laldvdedF28'll.latedvde16'Xrw~\Os<<oddCa<<assead6.Ol<<WS4SS.Sat<<astoaSddStat<<eledea61Seder4SteelStatesSleeti<<aLAEEONTARIO422Al5lI63344433laaeasset~44~IlssellaasavsdevelOtlslSeasslSg5See<<eTotal414AttavvSleISsv<<tv34ll48l~I5'g4gt<<v<<<<leltt<<es~4I<<~'v~tttl4I~IIIleeI<<<<4vIeI<<~Igatv>>Yeast~~~eveSIOd'dCOI%IIIIIII<<\I4ee4~<<~OS+QGgO5%l<<<<l~'i<<.CIsIIIwtIITIOed lNEloessSt<<W<<tlBAIWed~vSI~ealveen~.sOvate~4~<<I~SfYgsaAY-6N66Il.M<<dllleslcd~<<IIII~l.icXI~a44la C,IAJJsP,fIIII,7p'
>>~/ltt~ams>>I50Vp,'5'rIC6Hannibal.I~CIIoeoosoNON.I'I8P"kiISe>>p)1-IhtoojneoOelr,)CMOM3lI'/'::.,i0SL,~Y/qq~3PhslMWO)eI~r~ere'>>33t(y/'$'i~:3"=-V~'i'(~~~AX,Pres>>O~1~>>leSt>>5M'MrrveerA.llOonrrr~I~I~hIWWMSSwmol5/0%~~I3rel)slrnwl~IMOlhtrDeoln~)I3IIFULTOML.ÃItrtlaohm I~Ml'llpellH~1~\t)est);RII>>~3/'-errr.tonne~/I~os'rvtfwsnost'5Corners~1Csnord5II.E)5PelennoICancelrraPwcaItM0RwsStos45~1toslPoloemo)iseCIISRJh~sIComersIIaoolnein<<E~I-'e.pestcorhtr5I/CornersCan5\IsiIOPI'ICowu~)lentor1IConessnnehosoeCenterhah>>oeROWeVSCorhtrsRIssNr3;,8MlIt>>>>W~r"~l(Irmaa~,i>>>>II'MIooSo~nao~I)$inewPeooesMlonICAYUGAlroPoICP.Ã0COUNTYneerP)reel>>Mhsw>>oaMsoleI~h~IlIhtONONI)AGA 5(3Mlo>>l~~I~Is5$I>>ure)o>>KIIEPoSolosnet~>>'4s)~WMat>>M>>aSoot~Inwoh>>I~MWalWatnILIV~eel~~\eMRIY+0>>mela,>>,ee>>M>>I>>reoa.1PeSeen>>su20M79
FIGURE5.1.3-1004152LL70Unit1ODCMRevision13December1993
APPENDIXALIQUIDDOSEFACTORDERIVATION 004152LL71Unit1ODCMRevision13December1993 f')V;"ff~g AppendixALiquidEffluentDoseFactorDerivation, A~A(mrem/hrperpCi/ml)whichembodiesthedoseconversion factors,pathwaytransferfactors(e.g,bioaccumulation factors)g pathwayusagefactors,anddilution'factorsforthepointsofpathwayorigintakesintoaccountthedosefromingestion offishanddrinkingwaterandthesediment.
Thetotalbodyandorgandoseconversion factorsforeachradionuclide willbeusedfromTableE-11ofRegulatory Guide1.109.Toexpeditetime,thedoseiscalculated foramaximumindividual insteadofeachagegroup.Themaximumindividual dosefactorisacomposite ofthehighestdosefactorAofeachnuclideiagegroupa,andorgant,henceA,.Itshouldbenotedthatthefishingestion pathwayisthemostsignificant pathwayfordosefromliquideffluents.
Thewaterconsumption pathwayisincludedforconsistency withNUREG0133.Theequationforcalculating dosecontributions giveninsection1.3requirestheuseofthecomposite dosefactorA;,foreachnuclide,i.Thedosefactorequationforafreshwatersiteis:Kit-l,t~](DFL)~+o~~Dw+69.3UWe~(1-e)(DFS),)-ii<(>.>(4)Where:KoUIsthedosefactorfornuclidei,agegroupaftotalbodyororgant,forallappropriate
- pathways, (mrem/hrperpCi/ml).Istheunitconversion factor,1.14E5=1E6pC1/pCi x1E3ml/kg-:-8760hr/yr.Waterconsumption (1/yr)ifromTableE-5ofReg.Guide1.109.UgFishconsumption (Kg/yr);fromTableE-5ofReg.Guide1.109.U,(BF)iSedimentShoreline Usage(hr/yr);fromTableE-5ofReg.Guide1.109.Bioaccumulation factorfornuclide,i,infish,(pCi/kg,perpCi/1),fromTableA-1ofReg.Guide1.109.(DFL)hl(DFS))Doseconversion factorforage,nuclideiiigroupa,totalbodyororgant,(mrem/pCi);
fromTableE-llofReg.Guide1.109.Doseconversion factorfornuclideiandtotalbody,fromstandingoncontaminated ground(mern/hrperpCi/m');fromTableE-6ofReg.Guide1.109.DDilutionfactorfromthenearfieldareawithinone-quarter mileofthereleasepointtothepotablewaterintakefortheadultwaterconsumption.
ThisistheMetropolitan WaterBoard,OnondagaCountyintakestructure locatedwestoftheCityofOswego;(unitless).
004152LL72Unit1ODCMRevision13December1993 4%psvent, D,69.3AppendixA(Cont'd)Dilutionfactorfx'omthenearfieldareawithinonequartermileofthereleasepointtotheshoreline deposit(takenatthesamepointwherewetakeenvironmental samples1.5miles;unitless).
conversion factor.693x100,100K,(L/kg-hr)
- 40*24hr/day/.693 inL/m~-d,andK,=transfercoefficient fromwatertosedimentinL/kgperhour.Averagetransittimerequiredforeachnuclidetoreachthepointofexposureforinternaldose,itisthetotaltimeelapsedfromreleaseofthenuclidestoeitheringestion forwater(w)andfish(f)orshoreline deposit(s),(hr).tbLengthoftimethesedimentisexposedtothecontaminated water,nominally 15yrs(approximate midpointoffacilityoperating life),(hrs).decayconstantfornuclidei(hr').ExampleCalculation Shorewidthfactor(unitless) fromTableA-2ofReg.Guide1.109.r~ForI-131ThyroidDoseFactorforanAdultfromaRadwasteliquideffluents release:(DFS))(DFL)L,BF)UrDD,'U,W2.80E-91.95E-315214012120.35.5mrem/hrperpCi/m~mrem/pcit~pCi/KgperpCi/Lt<Kg/yrtb30hrs.(w=water)24hrs.(f=fish)1.314E5hrs.(5.48E3days)unxtlessU=730L/yrunitlessKo=1.14E5CiCimlkhr/yr(hr/yr)3.61E-3hr'rs (s=Shoreline Sediment)
ThesevalueswillyieldanA,Factorof6.79E4mrem-mlperpCi-hraslistedinTable2-4.ItshouldbenotedthatonlyalimitednumberofnuclidesarelistedonTables2-1to2-8.Thesearethemostcommonnuclidesencountered ineffluents.
Ifanuclideisdetectedforwhichafactorisnotlisted,thenitwillbecalculated andincludedinarevisiontotheODOM.0Inaddition, notalldosefactorsareusedforthedosecalculations.
Amaximumindividual isused,whichisacomposite ofthemaximumdosefactorofeachagegroupforeachorganasreflected intheapplicable chemistry procedures.
004152LL73Unit1ODCMRevision13December1993 0I APPENDIXBPLUMESHINEDOSEFACTORDERIVATION 004152LL74Unit1ODCMRevision13December1993 P!
APPENDIXBForelevatedreleasestheplumeshinedosefactorsforgammaair(B,)andwholebody(V,),arecalculated usingthefiniteplumemodelwithanelevation abovegroundequaltothestackheight.Tocalculate theplumeshinefactorforgammawholebody..doses, thegammaairdosefactorisadjustedfortheattenuation oftissue,andtheratioofmassabsorption coefficients between-tissueandair.Theequations areasfollows:GammaAirB,=,E,~KEIReV,Where:K'onversion factor(seebelowforactualvalue).massabsorption coefficient (cm/gKairforB<<ti.ssueforV,)V,Energyofgammarayperdisintegration (Mev)averagewindspeedforeachstability class(s),IEdownwinddistance(siteboundary, m)sectorwidth(radians) subscript forstability classIfunction=I,+k?iforeachstability class.(unitless, seeRegulatory Guide1.109)Fractionoftheattenuated energythatisactuallyabsorbedinair(seeRegulatory Guide1.109,seebelowforequation)
WholeBodVi1.11SB;ePEtaWhere:t~=tissuedepth(g/cd)SFshielding factorfromstructures (unitless) 1.11=Ratioofmassabsorption coefficients betweentissueandair.Whereallotherparameters aredefinedabove,.'K=conversion factor[3.7E10midis1.6E-6erq]Ci-sec[1293g]Mev[100~er]g-rad.46~k~~PEWhere:p=massattenuation coefficient (cd/g;airforB<<tissueforV<)p,=definedabove004152LL75Unit1ODCMRevision13December1993
<S APPENDIXB(Cont'd)Therearesevenstability classes,AthruF.Thepercentage oftheyearthateachstability classoccursistakenfromtheU-2FSAR.Fromthisdata,aplumeshinedosefactoriscalculated foreachstability classandeachnuclide,mgltiplied byitsrespective fractionandthensummed.Thewindspeedscorresponding toeachstability classare,also,takenfromtheU-2FSAR.Toconfirmtheaccuracyofthesevalues,anaverageofthe12monthwindspeedsfor1985,1986,1987and1988wascomparedtotheaverageoftheFSARvalues.Theaveragewindspeedoftheactualdataisequalto6.78m/s,whichcomparedfavorably totheFSARaveragewindspeedequalto6.77m/s.Theaveragegammaenergieswerecalculated usingaweightedaverageofallgammaenergiesemittedfromthenuclide.Theseenergiesweretakenfromthehandbook"Radioactive DecayDataTables",DavidC.Kocher.Themassabsorption (p,)andattenuation (p)coefficients werecalculated bymultiplying themassabsorption (p,/p)andmassattenuation (p/p)coefficients givenintheRadiation HealthHandbookbytheairdensityequalto1.293E-3g/ccorthetissuedensityof1g/ccwhereapplicable.
Thetissuedepthis5g/cm~for,thewholebody.Thedownwinddistanceisthesiteboundary.
004152LL76Unit1ODCMRevision13December1993 c)~'4.4,e(,~ll SAMPLECALCULATION APPENDIXB(Cont'd)Ex.Kr-89FSTABILITY CLASSONLY-GammaAir-DATAEppecr,~2.22MeVk~~=.871K~.462943E-3mpaV=5.55m/sec5.5064E-3m'
=644m.3919m.......vertical plumespreadtakenfrom"Introduction toNuclearEngineering",
JohnR.LaMarsh'-IFunctionUc,IiIgaB<.06.33.45I,+kIq.33+(.871)(.45)=-72dis~0.46Ci-secMevers2.943E-3m'.22Mev
.72(sQ)(g/m~)(ercro)(5.55m/s)(.39)(644m)(g-rad)1.55(-6)rads3600shr24hd365dCi/s(~1E6C1)Ci1E3mradrad2.76(-2)meadrpCi/sec-(.0253cm~/g)(5g/cd)1.11(.7)2.76(-2)mradrI[e)pci/secJ1.89(-2)meadrpCi/secNOTE:Theabovecalculation isfortheFstability classonly.ForTable3-2andprocedure values,aweightedfractionofeachstability classwasusedtodetermine theB>andV,values.004152LL77Unit1ODCMRevision13December1993
APPENDIXCDOSEPARAMETERS FORIODINE131and133,PARTICULATES ANDTRITIUM004152LL78Unit1ODCMRevision13December1993 k~~~C APPENDIXCDOSEPARAMETERS FORIODINE-131AND-133iPARTICULATES ANDTRITIUMThisappendixcontainsthemethodology whichwasusedtocalculate theorgandosefactorsforZ-131,I-133,particulates, andtritium.ThedosefactoriRwas.calculated uaCngthemethodology outlinedinNUREG-0133.
Theradioiodine andparticulate Technical Specification (Section3.6.15)isapplicable tothelocationintheunrestricted areawherethecombination ofexistingpathwaysandreceptoragegroupsindicates themaximumpotential exposureoccurs,i.e.,thecriticalreceptor.
Washoutwascalculated anddetermined tobenegligible.
gvalueshavebeencalculated fortheadult,teen,childandinfantagegroupsforallpathways.
However,fordosecompliance calculations, amaximumindividual isassumedthatisacomposite ofhighestdosefactorofeachagegroupforeachorganandpathway.Themethodology usedtocalculate thesevaluesfollows:C.1Inhalation PathwaQ(I)where:K'BR)~(DFA)g,Q(Z)dosefactorforeachidentified radionuclide ioftheorganofinterest(units=mrem/yrperpCi/m~)gK'constantofunitconversion, 1E6pCi/pCi(BR)~(DFA)1FBreathing rateofthereceptorofagegroupa,(units=m~/yr);Theinhalation dosefactorfornuclidei,organjandagegroupa,andorgant(units=mrem/pci)
.Thebreathing rates(BR)~forthevariousagegroups,asgiveninTableE-5ofRegulatory Guide1.109Revision1,aretabulated below.AeGrouaBreathinRatem~rInfant;ChildTeenAdult1400370080008000Inhalation dosefactors(DFA)>forthevariousagegroupsaregiveninTablesE-7throughE-10ofRegulatory Guide1.109Revision1.004152LL79Unit1ODCMRevision13December1993 1VEo+<
C.2GroundPlanePathwaAPPENDIXC(Cont'd)W(G)K'KSFDFG-l,t1-eWhere:Q(G)K'Dosefactorforthegroundplanepathwayforeachidentified radionuclide ifortheorganofinterest(units=m~-mrem/yr perpCi/sec)Aconstantofunitconversion, lE6pCi/pCiAconstantofunitconversion, 8760hr/yearTheradiological decay'onstant forradionuclide i,(units~sec')tTheexposuretime,sec,4.73E8sec(15years)(DFG)~~Thegroundplanedoseconversion factorforradionuclide i;(units=mrem/hrperpci/m~)SFTheshielding factor(dimensionless)
Ashielding factorof0.7isdiscussed inTableE-15ofRegulatory Guide1.109Revision1.Atabulation ofDFG,valuesispresented inTableE-6ofRegulatory Guide1.109Revisionl.004152LL80Unit1ODCMRevision13December1993 i'Ilk APPENDIXC(Cont'd)C.3Grass-CoworGoat-MilkPathwaQ(C)~K'FrD.L~ff+(~1-ff)(ee-l,,t~-l,t,YzY,Where:Q(C)K'osefactorforthecowmilkorgoatmilkpathway,foreachidentified radionuclide ifortheorganofinterest, (unitsm2-mrem/yr perpCi/sec)Aconstantofunitconversion, 1E6pCi/pCiThecow'sorgoat'sfeedconsumption rate,(units~Kg/day-wet weight),Thereceptor's milkconsumption rateforagegroupa,(unitsliters/yr)
Y,Theagricultural productivity byunitareaofpasturefeedgrassy(units~kg/m2)Theagricultural productivity byunitareaofstoredfeed,(units~kg/m2)Thestableelementtransfercoefficients, (units=pCi/liter.
perpCi/day)Fractionofdeposited activityretainedoncow'sfeedgrass(DFL)LLTheingestion dosefactorfornuclidei,agegroupa,andtotalbodyororgant(units=mrem/pCi)
Theradiological decayconstantforradionuclide i,(unitssec-1)Thedecayconstantforremovalofactivityonleafandplantsurfacesbyweathering equalto5.73E>>7sec-1(corresponding toa14dayhalf-life)
Thetransport timefrompasturetocoworgoat,tomilk,toreceptor, (units=sec)Thetransport timefrompasture,toharvest,tocoworgoat,tomilk,toreceptor(units=sec)004152LL81Unit1ODCMRevisi.on 13December1993
'4,~pIiHgJ'kPt.44~~t APPENDIXC(Cont'd)0'raction oftheyearthatthecoworgoatisonpasture(dimensionless)
Fractionofthecowfeedthatispasturegrasswhilethecowison~asture (dimensionless)
Milkcattleandgoatsareconsidered tobefedfromtwopotential sources,pasturegrassandstoredfeeds;Following thedevelopment inRegulatory Guide1.109Revision1,thevalueoff,isconsidered unityinlieuofsitespecificinformation.
Thevalueoff~is0.5basedon6monthgrazingperiod.Thisvalueforf,wasobtainedfromtheenvironmental group.TableC-1containstheappropriate valuesandtheirsourceinRegulatory Guide1.109Revision1.Theconcentration oftritiuminmilkisbasedontheairborneconcentration ratherthanthedeposition.
Therefore, theRz(C)isbasedonX/Q:Rp(C)KKF~QP~(DFL)
~0~75(0~5/H)Where:Rg(C)H0.75Dosefactorforthecoworgoatmilkpathwayfortritiumfortheorganofinterest, (units=mrem/yrperpci/m~)Aconstantofunitconversion, 1E3g/kgAbsolutehumidityoftheatmosphere, (unitsg/m~)Thefractionoftotalfeedthatiswater0.5Theratioofthespecificactivityofthefeedgrasswatertotheatmospheric waterOthervaluesaregivenpreviously.
AsitespecificvalueofHequalto6.14g/m~isused.Thisvaluewasobtainedfromtheenvironmental groupusingactualsitedata.004152LL82Unit1ODCMRevision13December1993 8'*I~9Jtlal(caJfp,~
C.4Grass-Cow-Meat PathwaAPPENDIXC(Cont'd)-litrg(C)=K'FrDFL[~f1+(~1-ff)(ee:(1)+1~)[Yp,Y,Q(M)Dosefactorforthemeatingestion pathwayforradionuclide iforanyorganofinterest, (units~m~-mrem/yr perpci/sec)FrThestableelementtransfercoefficients, (unitspCi/kgperpCi/day)Thereceptor's meatconsumption rateforagegroupa,(units~kg/year)Thetransport timefromharvest,tocow,toreceptor, (units=sec)Thetransport timefrompasture,tocow,toreceptor, (units=sec)Allothertermsremainthesameasdefinedforthemilkpathway.TableC-2containsthevalueswhichwereusedincalculating g(M).Theconcentration oftritiuminmeatisbasedonairborneconcentration ratherthandeposition.
Therefore, theR~(M)isbasedonX/Q.Rg(M)=K'KFQP~(DFL)~
[0.75(0.5/H)
)Where:R~(M)~Dosefactorforthemeatingestion pathwayfortritiumforanyorganofinterest, (units~mrem/yrperpCi/m')Allothertermsaredefinedabove.C.SVeetationPathwaTheintegrated concentration invegetation consumedbymanfollowstheexpression developed formilk.Manisconsidered toconsumetwotypesofvegetation (freshandstored)thatdifferonlyinthetimeperiodbetweenharvestandconsumption, therefore:
R(V)=K'(l,+1.)-A,t-l,t (DFL)~U",Fe+U',F,e004152LL83Unit1ODCMRevision13December1993 Nl'VNI'Xi' APPENDIXC(Cont'd)Where:Q(V)K'LUsFgFqYvDosefactorforvegetable pathwayforradionuclide ifortheorgan.afinterest, (units=m~-mrem/yr perpCi/sec)Aconstantofunitconversion, 1E6pCi/pCiTheconsumption rateoffreshleafyvegetation bythereceptorinagegroupa,(unitskg/yr)Theconsumption rateofstoredvegetation bythereceptorinagegroupa(unitskg/yr)Thefractionoftheannualintakeoffreshleafyvegetation grownlocallyThefractionoftheannualintakeofstoredvegetation grownlocallyTheaveragetimebetweenharvestofleafyvegetation anditsconsumption, (units=sec)Theaveragetimebetweenharvestofstoredvegetation anditsconsumption, (units~sec)Thevegetation arealPdensity,(units=kg/m~)Allotherfactorshavebeendefinedpreviously.
TableC-3presentstheappropriate parameter valuesandtheirsourceinRegulatory Guide1.109Revision1.Inlieuofsite-specific data,valuesforFzandF,of,1.0and0.76,respectively, wereusedinthecalculation.
ThesevalueswereobtainedfromTableE-15ofRegulatory Guide1.109Revision1.Theconcentration oftritiuminvegetation isbasedontheairborneconcentration ratherthanthedeposition.
Therefore, theRz(V)isbasedonX/Q:+(V)=KK[U~sfa+U~fi](DFL)w0~75(0~5/H)Where:Rg(V)dosefactorforthevegetable pathwayfortritiumforanyorganofinterest, (units=mrem/yrperpCi/m).Allothertermsaredefinedinpreceeding sections.
004152LL84Unit1ODCMRevision13December1993
TABLEC-1Parameters forGrass-(Cow orGoat)-Milk PathwaysParameter a<(kg/day)(DFL)>(mrem/pCi)
F(pCi/liter perpCi/day)Y,(kg/m~)Y~(kg/m)Value50(cow)6(goat)1.0(radioiodines) 0.2(particulates)
Eachradionuclide Eachstableelement2.00.7Reference Re.Guide1.109Rev.1TableE-3TableE-3TableE-15TableE-15TablesE-11toE-14TableE-1(cow)TableE-2(goat)TableE-15TableE-15t~(seconds) t~(seconds)
U(liters/yr) 1.73x10'2days)330infant330child400teen310adultTableE-15TableE-5TableE-5TableE-5TableE-57.78x10~(90days)TableE-15004152LL85Unit1ODCMRevision13December1993
TABLEC-2Parameters fortheGrass-Cow-Meat PathwayParameter F,(pCi/KgperpCi/day)U(Kg/yr)(DFL)@(mrem/pCi)
Y(kg/mi)Y,(kg/m)tb(seconds) tf(seconds)Qr(kg/day)Value1.0(radioiodines) 0.2(particulates)
Eachstableelement0infant41child65teen110adultEachradionuclide 0.72.07.78E6(90days)1.73E6(20days)50Reference Re.Guide1.109Rev.1TableE-15TableE-15'ITableE-1TableE-5TableE-5TableE-5TableE-5TablesE-11toE-14TableE-15TableE-15TableE-15TableE-15TableE-3004152LL86Unit1ODCMRevision13December1993
TABLEC-3Parameters fortheVegetable PathwayParameter r(dimensionless)
(DFL)>(mrem/pCi)
U"),(kg/yr)-infant-child-teen-adultU')~(kg/yr)-infant-child-teen-adultt(seconds) t(seconds)
Y(kg/m~)
Value1.0(radioiodines) 0.2(particulates)
Eachradionuclide 026426405206305208.6E4(1day)5.18E6(60days)2.0Reference Re.Guide1.109Rev.1TableE-1TableE-1TablesE-11toE-14TableE-5TableE-5TableE-5TableE-5TableE-5TableE-5TableE-5TableE-5TableE-15TableE-15TableE-15004152LL87Unit1ODCMRevision13December1993
APPENDIXDDIAGRAMSOFLIQUIDANDGASEOUSTREATMENT SYSTEMSANDMONITORING SYSTEMS004152LL88Unit1ODOMRevision13December1993
~'l~*r<>,tpyg'ted%wC PIPINGINSTRUHENT ANOEOUIPHENT SYHBOLSV~AV~YQQ~WL~asli<<seesnanialDteatIIsoI~~sHt>>K~LD<<Dates<<IIIOS<<Dao<<loweoss~I<<all~>>ICawl~Ke<<Dts>>D0eel~~<<s~<<>>IaIK0>>Kk~SK~ICLLKIIC~SKthIIKIKe<<}el~lKKeLCSCtKeteste~III[~8CI~Itatl~IoLIa<I}IK!Is~tl~IIOLt~I~sI0KtKs~II~~I~f~IWSt<<CI~CI>>IOtl~K~I~II~I~IItl~osIIII~>>%~~t~~IIIIL~Is~IL<aDataossa<<a~lesseelottoleil(KCSLectCKCLFSIatoll<<lfICallllH>>I-SKI<<<oeKKK~st<leaKawSal>>e~00sse/tealthsl>>cataaichs)Sa<<eaiChaess<<t<<cse<<KLIWSSLlsnICCW>>elocolssl<<stol le%11%al~.IIKI<<OKcallaaoolal<<tcsfDCCI~ll<<hIK<<<KKt>>ala<IsowCOSCCIleeCallslees<<<<tsltcscfailoo ssocalIIsasOIKCII<<oKIIIOLIKIQS011Shel+OlatsssaII<<SPECIANOI<<S4sssase<<IL SKS<<olo.'i:-acltlness~s'.s'..ae>>i<
<<e>>se<<coocts lssl>>sasL,as<<os<<ss>>~~,<<SosDfl<<~0,ecsssesaes~A.~<<<<lat>>flCIlaIlhvii~1>>0.aeoeeK>>casse%aCLOaaosIt<'t<lit<It<I
~I<<L<(ll<Itt~ll<IM.yt<LyjQIJ',RAIIQII stol~ss'a'\<<Osle~eel~00ecesses,Coo<<a~PPNZ~QLS..YLIII ILAI.IQILQ8MPEI6
!F==.Q~aYaa.QttttlJC<htlUtdh ee<<sl>>a<<IRXMYrkRO'.S<<<mS<<t<tttm
~AZLK~'JRYK~ittt~isaII<I818.M5~t,>>sa>>lease%os<
accl0<<otossDe51IwIoc<<tiLAVclsw~o>>>>oaa<<atilt~ISetaolie%ahalosla<<ol~e>>oo<<<<COo<<L~co<<toss<<ees~shtl<<>>SI~OSCDIKK>>ol<<S<<ts<<SSS~SL<<oFONEVICES~eee<<t<<0>>.~LD<LCKKWICII'I~sess<<es<<<<.
eslKss<<sclos(i~<<e>>es<<00nDIOIKSIseilstQtill<saPttt<PSANOFANS<lssasssa<<
esseKcsssssssl>>
ssIInteCecalIsleS<<\0SLOC~G'8<<ssssss~0es~Iet<<oee~IK<oc~~0II~la>>I~YOleI<<ssKOCI~l<<L~~IF>>c>>%CKKOt>>sconeI>>Kalt>><<saa~Le<<ISIteLtolol Qsllessee<<<<sss
~~SSS<<soAIOSIS<<oll0<<o01I>>ofIsI~~Kea>>I+<<fleets<a%
V+AVEPOSU~ONRC~Lsa.ttaLRBt<I<<t
~dl-.-lb~-.-Ill-sssatn~)oes<<<l>>SO(A~to>>etSaeKs<<.<<>>slK~IKC>>K00<<CC.IKKsha EXPANssIONJOINTSKS%<<S<<0tie<<C~SKOsss~easee<<tscsslosll
~~OK110'sl~IaloacKsse<<seiILjLQtIIBOLVllLYESKBAUOK
~ssas~.V,-.T:~--~-g~l0~tsossl0LSLL'steps<<~KLcowlSe~Isl~4sess<cote%0sea~assialIIce<<sso<<<<s<<LDswstsesI~telI4"~fo<<C.FIGUREPIPINC,IMSTINHEMT lUI0OQIPIIIMT SYM80LSI~lashlS<<IItalaB.~IllKseeffa<<s~lo<<LSSDe<<Kle'<<he<>>t<<slI-AIOLJOIIseltstoolIt<AtAt<Aaottsesw<c
<owtHCo<<<oct<<<%<<oft NINEMILEI'OINT-UNIT 1OFFSITEDOSECALC.MANUAL 8J RADIOA.IIVL WA~ItIII;IOSAI.;V.;IINtoooeetcootoovooeIeetlteeseV<<le,l~teltlovttlettev<<le.letlocoeoeelcltoea~eaIeewelWhNo'w~CI~aoOOOLOOOel<<t
~Itlte~vtet~tllooeteeltleeotclett<<IDtocteDIIo wtlMiceIeetwottIccetlr-~\DIVO<<'LCN'4~Ioeglelseel\Ile)lceoa<<etc@ItlliteCocleOLeoOaftoIoloo,veIOCIVtet<<
Wtlleeela+a//ta.Isleeoovottowtleve<<teel<<tteeoevoeteoooooteelOltlLIC~IDecltnt~~Iteoow<<e~ODtWtlCOVOctetetltte~<<etcetIIDIee~eooL~LeosoctoIM<<4LVVI~COICCIV~ee~CO<<OIVItotveCIVCVOICO WIC~<<tatelite!cocle'tellto
~ettlIWeltoaowtte<<ccVttlCttttCIOI teeoswtetIe<<OIWIOCIe~tWeeIIlieIOIICtote~oeetLCoocello~IIeoltelloI~Catt<<<<ISO eetlttteotCcctolIeetelloteeo<<aowtocttItloleeowoet~ettleveeIIV<<te~Swoet~IoelDVIIIitttIS Iee~L~eettFIGUREDRADIOACTIVE MASTEDISPOSALSYSTEH~CCOGAAAuOSCOSNÃCCOWKIICORCIOCCATCOCO NINEMILEPOINT-UNIT 1OFFSITEDOSECALC.MAKUALD-1
'g~V MAINCONDENSER AIRREMOVALANDOFFCASSYSTEMII-=),gl~~>II'a.adeem IAIIA\~~IAI0%AI~IAI~A~t~~IAWAA~&IAAAIA%IA~QIgŽIII~~AI~Il.~~\WWIA~l~IAljo~IIAIAA~.~~~A%II1~,II%AAtAI~IKIAII~~~waIAMfIGUAED-1SIEAHPACKINGEKHAUSTER AHORECOHBIHER SYSTEHMAOIAAAMOHAWICPOWtHCONPOHA'IIOM NINEMILFPOINT-UNIT lOFFSIDEDOSECALC.MANUAL A'
REACTORBUILDINGVENTILATION SYSTEMC7ILL)~raac~aIIQtaeNSSgeea<<risesO:-.4:pg)-)
--ta)-ty-)erl.)
~~)P<Qn)-Qo(-@-~--Q+)=a=.m.)")I>>el~E>><<Crill~I>>acElreeaeawrWe4<<tee'era0~a~eaoaNalr<<area~eaesIelre~l<<e~IN'rlreLQ~l<<e.I>>'<<IraII<<g~<<'1ew1rr<<IIwIsa>>aIl<<llw'eose<<elena'ere IIeea>>ae<<~lwealaEca(I.))).=.))3El~<<e~<<e~~~~~~~y4.~~~~~~~~barlaara~erwaaaa~easeIe)e)ii'1eil1ra1>>Liaaw1a)IrV~e>>II~<<TrELc<<e,>>I'roee<<c.nrseesOEII<<sewlI<<erI<<elaeIseeaeehgr<<eeeL~Walla'aaa~eelJ<<I~Iae.acec,IN'I>><<er%El'ee<<aa
<<rr~'i.P.~~saI1~Isaeleaea<<<<<<'<<ooaoesF)GU))EI)-7IREACTORBUILDINGVERTILATIONSTSTEH0-3)IIAi)A)lA LJOHJWK)IOW))11OIZ)I@HA)IQ)J NINEMILEPOINT-UNIT 1OI'FSITEDOSECALC.MANUAL
\I+'I WASTEDISPOSALBUILDINGVENTILATION SYSTEM~ekeIgfakke~AkekkPl~tk>>eatI&I'<<Lkk&Iket4--~V>>lI)~.'IIIt.ee3".744PkkkIttaat)~ek<<t3~kIe-e-33ke~IeeI~k<<at~~k~Ikitek~~JIkaeakLklkaklktQl>>>>k>>~kekIII~IF/Q03hl,egYAAII~I'k@e~(t>>akt>>taakAttQ>>,......
~Qt~teaI~A>><<~kkkk~lt'Ak~~rQ>>~~I~I~akkeitf>><<kktI>>vC4'~u~Vrp~JLh+.QfI+A~ktk.'&gfIkI>>~~I>>IllItt<<1+1'<<tattI>>akkiatF~~ekkiHkl~,te>>t>>tklktkkkt~I~Iet~tkkegk~A>>tIktikketkI~Lk.'II<<i.>>kt~kk~gKstktkakkkk.IakatkkIk~~~lhTllV.----S0----'IWIk kklFIGUREp-JIIASTE0ISPOSALBVILOINGVENTILATION SYSILHHIAtiAAAAIOI<<AWKVOr<<LHC041'OHAlK)H NINEMILEPOINT-UNIT 10FFSITED0SECALCI1ANUAI.0-4
,C'IJa4ft STACK-PLANANDELEVATION h,AMCLRYATIO4 GRAPHICPLATfoN4~LLfRX,I,I'IIIII.(IPLAT1CRM~~4RRQ.IeoIIINCTICPROafPLATPORMIPLLTTGRLIcoIc.twrelopa fLa50'4'rc tL.aaJO'OPPOL'5LPCaoI~g~gLaeTIO<JlilL'0~TOPaeQoIOVATIONLOOKING+OATH0-5FIGURED-5SIIStackNIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT 1OFFSITRDON@CALCoMANUAL l
OFFGASBUILDINGVENTILATION SYSTEM~tteWs~etYI~Kwehet~~ssee~~~~qe~~~~Klltll~~le~OtlK'~stl~ott'e'tts eelaes~Is<<IeJtle'lOOCIeIIOOIKOslIOIte~<<LItteA&I4'aesketle~setttg<<Iteesew'K'IGURE OFFGASBUILOINGVEIITILAT IONSYSTEN~e~tw>>&t~les4'IIAQAAAMOHOWOOOIOWLQCG4OVVHAO<OOO NINEMILEPOINT-UNIT 1OFFSITEDOSECALO.MANUAL0-6
PRINTERCRTPARTCUl.ATE INPUT/DILUTION STATIONIODINEDETECTOR8 (3)MAINFRAMEINSTRUMENTATION CABINETFIGURE0-7SImpIIfIed VIewofHodel400StacksHonltorNIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT 1OFFSITEDOSECALC.MANUAm.
- ISOKINETIC PROBERN2111241RAGEMSDilutianRAGEMSSamphReturn112-52112-13tStackSam112-55112433112-132112-57112-56OGESMSIntet3112-133OGESMSOu5el112-30J,PFigureD-8StackSampleandSampleReturnNIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT1OFFSITEDOSECALC.MANUAL0-8 C-Ail RAGEMSInltttOV5112-173OV3112-169OV2112-167PGV112-106112-110%SupplyOV8112-178OV712-1PI112-21OV4'l12-171OFS1112-101AL112-130112-51OV1OV13112-165112&RAGEMSDiluSonInletOFC4112-104OFS4112-04APGV112-107OFG1112-101112-111Pl11.122OFC3112-103OFS3112-103A112-116OCF211-102OFS2112-102A112-151OV16112-150112-112Pl'l1-23OV12Scunpte112+7ReturnRAGEMSOu5et112-113Pl112-124112-117112-118OplOV8112143FigureD-9RAGEMSDilutionSchematic 11-44NIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT1OFFSITEDOSECALC.MANUALD-9 Pi'}
Pl112-125112-1141FS1112-1291V31V4112-183112-1852V3112-1992V4112-2013V161'12-21811246RahuQTtitium112-73112-72112.743FS1112-105A1V11Q.112.1812V1112-13V3112.7Pl3V13V5gg112-126112-19711245112493CVI112-1051VS112.1861V62VS112-187112-2022V6112-2032V11112-20811-761-7833V411248112-113V63V7112-100112-211Pl112471V11112-192Pl112441V17112193V11112-2153V1112-217108112-%3P13V10112-2143V12112-109112-216FiureD-10RAGEMSSchematic NIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT1OFFSITEDOSECALC.MANUAL0-10
'EQ)tV' 11242FS11-93112-1011249RN43A6711246112-11Inlet112-146112-147112-59FL1112-58112-14812-1491126111260112-152P1'l2-137Pl112-uu112-6263112-153'l12641'l245uu112-154112-1611124811244FCV112-91112-137112-163112-134PS2114411-35.112-135112-139112-1381'l2-140FS112-94Fl11246V/PI1124512-15811w112-156112-155112-142112-141112-22112-20112-2111240112-159112-13112-157112-19112-1121121411249112-70112-1512-711120711248FiureD-11112-12OGESMSSchematic NIAGARAMOHAWKPOWERCORPORATION NINEMILEPOINT-UNIT'IOFFSITEDOSECALC.MANUAL eQhpl4>>4 ATTACHNENT 27NlAGARA'"'@;.;::",wxegg~e,~e;i'.;;.;.m~~t~),','~>-;..~~;~,.'.y~rt~g)r,;.;n~:~<<o'"'.g;:,
>~@:No.-';Iiver~jQCENSNG!DQCUMBgjCHANGEREQUEST'"
p.UMQHAA'K'."~.',vg@",~@~;gym
>;<g:-:.~,rg~j~~qw~ymj~yw:.~~~~~,>>,
I<<4(D'.':".;0g:"",:!.00INPArrr1-/Nr77A7toN A.AffectedDocOPLPlansIfProgramsPage~of~gUnit1QUnit2QFacitityOperating UcenseQUFSARQSteEmergency Phn(SEP)QTechnical Specifications QQuaRyAssurProgramdQSecuntyPhns(SPS)0Environmental ProtPhnQRreProtProgramOtfsiteDoseCatoManual(ODM)QISProgramRan(ISI)QISTProgramPhn(IS7)QCoreOperating UmitsRept(COL)B.Descnpiion
@permanent QTanporary, Errpectrrd Duratfo(L drttt.dw~~enn~dWe.$gZ7-/OOCN,Pagoh3Section,Figure,TableD.SoutceofChange/References gas',r~fyy,to~r9,P'~~+it/I
~~+.f~,MOM(.r~,~P~~/'sna~~cn(otl(rro~~Ž1tdnrt/tn~d(~/r/g7/p(nAd,(.(n6(dDcitr.)'.
NIP4EV41Reviewgprogninly eratuatfortrgahrty Rn(/rnrrttacfredFOtiginato Q0gi/Q.PAR7'-RaVraW/APPROVAt.
Date///49/yg4SME(Prfnmacy QNADateB.ReSpOigBranChManager(Pkeh5a/I ud,'3DateC.Effectfvoness ReviowD.SORCQNNESRABeaQhNQAttachedhftghttL:
MgDat>>:/gP/NgHoF.PhntMgrQhatQObra/nodperMWRG41G.NRCp&IRM1Submitta/Require(
9NNObta/nedperDocCotrersheot QObta/nodporMP4EV4ftartarNMlate:QNRCAppTDate:
PART~LZQEVTA77ON 4OPLOnly:AffectedDocumentsUpdatedQB.UFSOnly:Need'Askuilt'r AffoctDocumontQC.Othenr8QllrdSAR~-g/rJqgPAR7'4-Ct.crlrRz tt.ptnooto'dintopotontDoo,+RB.QNotYottnooot'dintoontontCloseChangoTracfongDoc,App'dforRtnr.C.Chsodby(Petrfretta()
zI77lG/7l.d.s
&VI;,kicoip'.d;Rev:
- ,'gy'
- "g~
- ,.".tg Date/.>QoPagellNIP-LPP-01 Rev02 6$%J1OI5M' ATTACHNEHT 3RNo"""':""<-~~
~"'"~"-'evoIQUFSARA.QualifyAssurrnceProgram~Doesthechange(s) ceasetosatisfythecriteriaof10CFR50Appendix8oreduceSARprogramcommitments previously acceptedbytheNRC?Page~aSQYosQNo8FireProf@SonProgram~Doesthechange(s) adversely affecttheabilitytoacheveandmaintainsafeshutdownin theeventofaliefQYooQNoQSITEFNERGENCYPLAN~Doesthechange(s) decreaseeffectiveness oftheSEP7~DoestheSEP,aschanged,ceasetomeetthestandards of10CFR50.47(b) and10CFR50AppendixE?QYosQNoQYesQNoQSECURITYPLANS~Document~Doesthechange(s) decreasetheeffectiveness ofthePhysicalSecurityRanorSecurityPersonnel TrainingandQuafiffcathn Planpreparedpursuantto10CFR50.34(c) or10CFR73't Doesthechange(s) decreasetheeffectiveness ofthefirstfourcategories afinformational Background, GenericRanningBase,LicenseePlanningBase,andlarresponsibility matrixoftheSafeguaids Contingency Planpreparedpursuantto10CFR50.34(d) or10CFR737QYesQNoQYosQM~QPROCESSCONTROLPROGRAM~Doesthechange(s) reduceIheoverallconformance ofthesolidified wasteproducttoexistingcriteriaforsolidwastesinaccordance withTechnical Specifications?
QYosQNogjODCN~Doesthechange(s) reducetheaccuracyofreliablyoflhedosecafcuhtions orsetpointdeterminations inaccordance withTechnical Speti5catfons7 QYesQNoBASIS~rA~v".i'rt'E'S7ere0diaz~.7.S.PaEPmea(Printltnitfal)
~liZMM>.Won~Page12NIP-LPP-01 Rev02 4"lg.zfIf No.~MU'!JRJ!IaptIoi+FR.PRELIMINARY EVALATINTlTLE:Revision13totheUnit1OffsiteDoseCalculation ManualDESCRIPTION OFPROPOSEDCHANGE:~Pennanen orTemporary 1AnwThniIifiinmilklinwhRiliIEnvirnmn IMnirinPrrm.DOCUIVIENTS REVIEWED:
1MmfrmB.ZhrkB.ThmA21AFETYIMAVALATINA.IstheSARaffected?
1.Doestheproposalchangethefacilityorprocedures fromtheirdescription intheSAR?(Yes(No)Thihnnfinfrm'nminw'hNRCRIinnd7hnicalcificanRuirnndoesntvriiffiTrrinAR.a.Doestheproposedchangealterthedesign,function, ormethodofperforming thefunctionoracomponent, system,orstructure described intheSAR?(YeslNo)ThhannuafinfrmaionednmianewhRRulainaTechnical S'fictionRirementaninvlvanmnnmruresdescribedin heSAR.b.Doestheproposedchangealterprocedures discussed intheinitialoperations andorganizational chaptersoftheFSARortheotherprocedural-type commitments, suchastheemergency planandmodesandsequences ofplantoperation described intheSARtIyes~N~Th hnenafinfrma'nbaonomianwhNRCRIThnialfi'RirennrnizanhammntuininiFARro'noural-004158LLNIP-SEV%1 Rev0 g"
No,(-20INMPURJRJlPage2of4FR.PRELIIVIINA YEVAL(Cont'd)2.Doestheproposalinvolveatestorexperiment notdescribed intheSAR?(Yes/~N)ThchneIsnfinfrmnanmInwhRRuiansaThniIfi'RuirnnvIvreximnbinAR.3.Couldtheproposalaffectnuclearsafetyinawaynotpreviously evaluated intheSAR?(Yes/~N)hnnfinrmnasnInw'hNRRIiIPirnmwhIINRrirninwffnrfIftheanswertoalltheabovequestions is"NO",asafetyevaluation isnotrequired.
Iftheansweris"YES"toanyitemsinA,adetailedSafetyEvaluation isrequiredtodetermine ifanUnreviewed SafetyQuestionexists,B.IsachangetotheTechnical Specifications necessary?
(Yes')IfYes,gotoNIP-LPP-01.
DETAILEDSAFETYEVALUATION ISREQUIRED?
YESXNO004158LLNIP-SEV%1 Rev0 t+fiJCo"IIvAI~
No.NMPM'JRPage3of4FR.PRELIMINARY EVALATIN(Cont'd)NVNTAIMPTEVALATINA.Willthechange,testorexperiment:
'1.Resultinasignificant increaseinanyadverseenvironmental impactpreviously reviewedandevaluated intheNMP2FinalEnvironmental Statement
-Operating LicenseStage(FES-OL)andotherNRCEnvironmental impactassessments?
YESNO2.Resultinasignificant changeintheeffluents orpowerlevel?"3.Resultinanactivitynotconfinedtoon-siteareaspreviously disturbed duringsitepreparation andplantconstruction?
YES.N~YESNO4.Concernamatternotpreviously reviewedandevaluated inthedocuments specified inquestion"1"above,whichmayhaveasignificant adverseenvironmental impact?YESNO'5.Constitute adecreaseintheeffectiveness oftheNIVIP2Environmental Protection Plan(EPP)?YESNOB.IsachangetotheEnvironmental Protection Plannecessary?
YESNOIftheanswertoalltheabovequestions is"NO",theEnvironmental Evaluation iscompleteandnofurtheractionisrequired.
Iftheansweris"YES"toanyitemsinII.AorII,Babove,adetailedEnvironmental Evaluation isrequiredtodetermine ifanUnreviewed Environmental Questionexits,ContactSupervisor Environmental Protection.
DETAILEDENVIRONMENTAL EVALUATION ISREQUIRED?
YESN~004158LLNIP-SEV-01 Rev0 AlE No.NMPUnR.J!FRPRELIIREVALATl(Cont'd)Page4of4III.)DENTIATINFARHANEA.AreSARchangesrequired?
(Yesl~N)LDCRNo.Affectedfigures,tables,textsections(alsoindicatesheetsfortablesandfiguresandpagesfortext)IV.IDNTIFIATINFIMPANPREVIMMTMA,Excluding statements madeintheSAR,doesthischangeimpactanycommitments madetotheNRC?(YesINo)Ifyes,listcommitment, agency.2.agencyagencyV.B.Doescommitment(s) needtobechanged?(Yes')Ifyes,notifytheNRCProgramDirector.
INATREPreparer:
RespobleIndividual DateApprover:
Approver/Title DateContacttheNMPSupervisor Environmental Protection forassistance inanswering thesequestions, ifnecessary.
~N:ThereisanODCMchangewhichrequiresanLDCRNo.1-93-ODM-004, butthisisnotconsidered aSARchange.004158LLNIP-SEVZ1 Rev0